--------------------------------------------------------------------------------
      name:  <unnamed>
       log:  C:\Users\bt308095\Documents\ISQ_diffusion_hub\diffusion_hub_updated
> .log
  log type:  text
 opened on:   8 Aug 2024, 21:49:00

. 
. **************************************
. ********* PTA-LEVEL ANALYSIS *********
. **************************************
. 
. *** TABLE 2 - main results
. 
. feologit dv_cr_index dispute_experienceshare bc_mission_diff  market_access_di
> ff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  num
> ber_parties dv_cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -558.98076  
Iteration 1:   log conditional likelihood = -490.82364  
Iteration 2:   log conditional likelihood = -489.88868  
Iteration 3:   log conditional likelihood = -489.88387  
Iteration 4:   log conditional likelihood = -489.88387  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       2209
                                         N. of observations       =        435
                                         N. of panel units        =         34
                                         Wald chi2(9)             =     349.25
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -489.88387  Pseudo R2                =     0.4625
                                   (Std. err. adjusted for 34 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.876102   .4428766     4.24   0.000      1.00808    2.744124
bc_mission_~f |   .0647417   .0351328     1.84   0.065    -.0041173    .1336006
market_acce~f |  -1.105472   .4717207    -2.34   0.019    -2.030027   -.1809162
retaliatory~f |  -.0062949   .0556021    -0.11   0.910    -.1152729    .1026831
    wto_share |  -.3714546    .546873    -0.68   0.497    -1.443306    .7003967
all_democracy |   .0357954   .3798317     0.09   0.925     -.708661    .7802518
pta_depth_i~x |    .951183   .1107781     8.59   0.000      .734062    1.168304
number_part~s |   .0459838   .0156244     2.94   0.003     .0153606     .076607
dv_cr_previ~a |   .8547457   .2686114     3.18   0.001     .3282771    1.381214
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index  pta_dispute_asymmetry   bc_mission_diff  market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  nu
> mber_parties dv_cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -389.29843  
Iteration 1:   log conditional likelihood = -351.59524  
Iteration 2:   log conditional likelihood = -350.92533  
Iteration 3:   log conditional likelihood = -350.92416  
Iteration 4:   log conditional likelihood = -350.92416  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1584
                                         N. of observations       =        329
                                         N. of panel units        =         31
                                         Wald chi2(9)             =     323.39
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -350.92416  Pseudo R2                =     0.4548
                                   (Std. err. adjusted for 31 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -1.972746   .9273399    -2.13   0.033    -3.790299   -.1551934
bc_mission_~f |   .0799277   .0368524     2.17   0.030     .0076983    .1521572
market_acce~f |  -1.513272   .5550158    -2.73   0.006    -2.601083   -.4254606
retaliatory~f |  -.1135351   .0848148    -1.34   0.181     -.279769    .0526988
    wto_share |   1.299447   .8219751     1.58   0.114    -.3115944    2.910489
all_democracy |   .1076979   .4613607     0.23   0.815    -.7965524    1.011948
pta_depth_i~x |   .9783126   .1131072     8.65   0.000     .7566265    1.199999
number_part~s |   .0600886   .0198051     3.03   0.002     .0212713    .0989059
dv_cr_previ~a |   .6869056   .3035413     2.26   0.024     .0919756    1.281835
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare   bc_mission_diff market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  nu
> mber_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -425.75913  
Iteration 1:   log conditional likelihood = -375.14967  
Iteration 2:   log conditional likelihood = -374.16863  
Iteration 3:   log conditional likelihood = -374.16356  
Iteration 4:   log conditional likelihood = -374.16356  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1677
                                         N. of observations       =        319
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     392.84
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -374.16356  Pseudo R2                =     0.4656
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   2.259357   .5087206     4.44   0.000     1.262282    3.256431
bc_mission_~f |   .0500574   .0444889     1.13   0.261    -.0371391     .137254
market_acce~f |  -1.098824   .6144328    -1.79   0.074     -2.30309    .1054425
retaliatory~f |   .0202656   .0787562     0.26   0.797    -.1340936    .1746248
    wto_share |    -.19359   .6637298    -0.29   0.771    -1.494477    1.107297
all_democracy |  -.0550047   .4676645    -0.12   0.906    -.9716102    .8616009
pta_depth_i~x |   .8999219   .1474041     6.11   0.000     .6110151    1.188829
number_part~s |   .0311925   .0173127     1.80   0.072    -.0027398    .0651247
dv_cr_previ~a |   .7663847   .3197376     2.40   0.017     .1397104    1.393059
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index pta_dispute_asymmetry   bc_mission_diff market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numb
> er_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -291.38561  
Iteration 1:   log conditional likelihood =   -261.891  
Iteration 2:   log conditional likelihood = -261.35908  
Iteration 3:   log conditional likelihood = -261.35745  
Iteration 4:   log conditional likelihood = -261.35745  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     312.56
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -261.35745  Pseudo R2                =     0.4646
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -3.650557   .9275404    -3.94   0.000    -5.468502   -1.832611
bc_mission_~f |   .0771097   .0398191     1.94   0.053    -.0009343    .1551537
market_acce~f |  -1.820806   .7154794    -2.54   0.011     -3.22312   -.4184921
retaliatory~f |  -.1138444   .1190702    -0.96   0.339    -.3472178    .1195289
    wto_share |   2.334562   1.110141     2.10   0.035     .1587251    4.510399
all_democracy |   .0817336   .5610914     0.15   0.884    -1.017985    1.181452
pta_depth_i~x |   .9584502   .1461065     6.56   0.000     .6720866    1.244814
number_part~s |   .0516446   .0217237     2.38   0.017     .0090669    .0942223
dv_cr_previ~a |   .6238048   .3234761     1.93   0.054    -.0101966    1.257806
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_mission_
> diff  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy 
>   pta_depth_index  number_parties dv_cr_previouspta if year > 1994, group(year
> )

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -290.44684  
Iteration 1:   log conditional likelihood = -259.03921  
Iteration 2:   log conditional likelihood = -258.56546  
Iteration 3:   log conditional likelihood =  -258.5645  
Iteration 4:   log conditional likelihood =  -258.5645  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     268.07
                                         Prob > chi2              =     0.0000
Log conditional likelihood =  -258.5645  Pseudo R2                =     0.4703
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.318351   .8375642     1.57   0.115    -.3232448    2.959947
p~e_asymmetry |  -3.119181   .9809962    -3.18   0.001    -5.041898   -1.196463
bc_mission_~f |   .0898848   .0388331     2.31   0.021     .0137734    .1659962
market_acce~f |  -1.492653   .8255118    -1.81   0.071    -3.110626    .1253208
retaliatory~f |   -.112227    .110406    -1.02   0.309    -.3286189    .1041649
    wto_share |   1.701279   1.076821     1.58   0.114    -.4092507    3.811809
all_democracy |   .0242491   .5410516     0.04   0.964    -1.036192    1.084691
pta_depth_i~x |   .9497601   .1461896     6.50   0.000     .6632337    1.236286
number_part~s |   .0573588    .021885     2.62   0.009      .014465    .1002527
dv_cr_previ~a |   .6185028   .3338861     1.85   0.064     -.035902    1.272908
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare bc_mission_diff     market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numb
> er_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5781                                         min =          3
     Between = 0.9180                                         avg =       15.1
     Overall = 0.7205                                         max =         25

                                                F(9,21)           =      58.03
corr(u_i, Xb) = 0.4117                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.592796   .2643085     6.03   0.000     1.043136    2.142455
bc_mission_~f |   .0230203   .0227665     1.01   0.323    -.0243253    .0703658
market_acce~f |  -.5232941   .2805324    -1.87   0.076    -1.106693     .060105
retaliatory~f |    .008707   .0399993     0.22   0.830    -.0744762    .0918902
    wto_share |  -.2901363   .2705101    -1.07   0.296    -.8526928    .2724202
all_democracy |  -.1061176   .1912377    -0.55   0.585    -.5038181    .2915829
pta_depth_i~x |     .43816   .0531097     8.25   0.000     .3277124    .5486076
number_part~s |   .0193875    .011912     1.63   0.119    -.0053849    .0441599
dv_cr_previ~a |   .2783783   .1371013     2.03   0.055    -.0067394     .563496
        _cons |  -1.857966   .3541086    -5.25   0.000    -2.594376   -1.121557
--------------+----------------------------------------------------------------
      sigma_u |  .47192458
      sigma_e |  1.0094575
          rho |   .1793587   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  bc_mission_diff pta_dispute_asymmetry    market_access_diff 
>   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number
> _parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5174                                         min =          3
     Between = 0.8822                                         avg =       11.8
     Overall = 0.6270                                         max =         22

                                                F(9,21)           =      45.15
corr(u_i, Xb) = 0.3295                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
bc_mission_~f |   .0350109   .0215259     1.63   0.119    -.0097546    .0797765
p~e_asymmetry |  -1.779438   .5714058    -3.11   0.005    -2.967742   -.5911349
market_acce~f |  -.8705045   .3589769    -2.42   0.024    -1.617038   -.1239712
retaliatory~f |  -.0565128   .0677396    -0.83   0.414     -.197385    .0843593
    wto_share |   1.181114   .5671953     2.08   0.050      .001567    2.360662
all_democracy |  -.0099319   .2613219    -0.04   0.970    -.5533804    .5335167
pta_depth_i~x |   .4532984   .0571857     7.93   0.000     .3343742    .5722227
number_part~s |   .0251203   .0147933     1.70   0.104    -.0056441    .0558847
dv_cr_previ~a |   .2789172   .1689693     1.65   0.114    -.0724737    .6303081
        _cons |  -1.811221   .8157684    -2.22   0.038    -3.507704   -.1147377
--------------+----------------------------------------------------------------
      sigma_u |  .45772218
      sigma_e |  1.0884843
          rho |  .15026067   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare bc_mission_diff pta_dispute_asymmetry
>     market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5300                                         min =          3
     Between = 0.8733                                         avg =       11.8
     Overall = 0.6321                                         max =         22

                                                F(10,21)          =      50.59
corr(u_i, Xb) = 0.2915                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.072127    .389411     2.75   0.012     .2623021    1.881951
bc_mission_~f |   .0388802   .0204195     1.90   0.071    -.0035844    .0813448
p~e_asymmetry |   -1.42766   .5718596    -2.50   0.021    -2.616907    -.238413
market_acce~f |   -.662105   .3879133    -1.71   0.103    -1.468815    .1446049
retaliatory~f |  -.0528621   .0631829    -0.84   0.412    -.1842581    .0785338
    wto_share |   .5683376   .5349103     1.06   0.300    -.5440693    1.680745
all_democracy |  -.0140863   .2494408    -0.06   0.955    -.5328269    .5046542
pta_depth_i~x |    .429603    .056599     7.59   0.000      .311899    .5473071
number_part~s |   .0302135   .0154687     1.95   0.064    -.0019555    .0623826
dv_cr_previ~a |   .2747304   .1728155     1.59   0.127     -.084659    .6341199
        _cons |  -2.226171   .9138873    -2.44   0.024    -4.126704   -.3256388
--------------+----------------------------------------------------------------
      sigma_u |  .46167291
      sigma_e |  1.0764678
          rho |  .15535975   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. 
. ** Figure 6
. 
. ologit dv_cr_index dispute_experienceshare i.year  bc_mission_diff market_acce
> ss_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index
>   number_parties dv_cr_previouspta if year > 1994, vce(cluster year)

Iteration 0:   log pseudolikelihood = -592.97465  
Iteration 1:   log pseudolikelihood =  -417.0574  
Iteration 2:   log pseudolikelihood = -391.71448  
Iteration 3:   log pseudolikelihood =   -391.116  
Iteration 4:   log pseudolikelihood =  -391.1136  
Iteration 5:   log pseudolikelihood =  -391.1136  

Ordered logistic regression                             Number of obs =    332
                                                        Wald chi2(8)  =      .
                                                        Prob > chi2   =      .
Log pseudolikelihood = -391.1136                        Pseudo R2     = 0.3404

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.893751   .5089041     3.72   0.000     .8963174    2.891185
              |
         year |
        1996  |   -.101271   .1366744    -0.74   0.459    -.3691478    .1666059
        1997  |   .3734482   .1310296     2.85   0.004     .1166349    .6302614
        1998  |   .3407215   .1629709     2.09   0.037     .0213044    .6601386
        1999  |   -.247902   .1846505    -1.34   0.179    -.6098103    .1140062
        2000  |   .0085176   .2179955     0.04   0.969    -.4187456    .4357809
        2001  |   1.036131   .2087254     4.96   0.000     .6270368    1.445225
        2002  |   .4352227   .2322016     1.87   0.061     -.019884    .8903295
        2003  |  -.3018686   .1204909    -2.51   0.012    -.5380264   -.0657109
        2004  |   2.385102   .2934012     8.13   0.000     1.810046    2.960158
        2005  |   .5095001   .4377382     1.16   0.244    -.3484509    1.367451
        2006  |   .6068953   .3574075     1.70   0.089    -.0936105    1.307401
        2007  |   .8122138    .404351     2.01   0.045     .0197005    1.604727
        2008  |   .1600516   .3149382     0.51   0.611    -.4572158    .7773191
        2009  |   .7070336   .3111705     2.27   0.023     .0971505    1.316917
        2010  |    1.50708   .4666247     3.23   0.001     .5925121    2.421647
        2011  |   1.189614   .4127869     2.88   0.004     .3805662    1.998661
        2012  |   1.413282   .4939348     2.86   0.004     .4451879    2.381377
        2013  |   1.489007   .5016864     2.97   0.003     .5057194    2.472294
        2014  |   .3684668   .4603224     0.80   0.423    -.5337484    1.270682
        2015  |     .06129   .8865042     0.07   0.945    -1.676226    1.798806
        2016  |  -2.311373   .5415537    -4.27   0.000    -3.372798   -1.249947
              |
bc_mission_~f |   .0523383   .0534928     0.98   0.328    -.0525057    .1571823
market_acce~f |  -1.174202   .6682796    -1.76   0.079    -2.484006     .135602
retaliatory~f |   .0338409   .0714613     0.47   0.636    -.1062206    .1739024
    wto_share |  -.6711359   .5917305    -1.13   0.257    -1.830906    .4886344
all_democracy |   -.115792   .3940285    -0.29   0.769    -.8880737    .6564898
pta_depth_i~x |   .9086191   .1326614     6.85   0.000     .6486075    1.168631
number_part~s |   .0208761   .0178083     1.17   0.241    -.0140274    .0557797
dv_cr_previ~a |    .974083   .2554747     3.81   0.000     .4733619    1.474804
--------------+----------------------------------------------------------------
        /cut1 |   .5409212   .6807067                     -.7932394    1.875082
        /cut2 |   3.269792   .6120869                      2.070123     4.46946
        /cut3 |    3.84872   .6062266                      2.660537    5.036902
        /cut4 |   5.551513   .6406057                      4.295949    6.807078
        /cut5 |   6.214196    .693021                        4.8559    7.572493
        /cut6 |   7.521428   .7580203                      6.035735     9.00712
        /cut7 |   13.54769   1.095755                      11.40005    15.69533
-------------------------------------------------------------------------------

. 
. sort dispute_experienceshare

.  quietly by dispute_experienceshare:  gen ex_share = cond(_N==1,0,_n)

.  gen ex_histo=.
(550 missing values generated)

.  replace ex_histo=dispute_experienceshare if ex_share==0 | ex_share==1
(33 real changes made)

. 
. 
. margins, dydx(dispute_experienceshare)

Average marginal effects                                   Number of obs = 332
Model VCE: Robust

dy/dx wrt: dispute_experienceshare

1._predict: Pr(dv_cr_index==0), predict(pr outcome(0))
2._predict: Pr(dv_cr_index==1), predict(pr outcome(1))
3._predict: Pr(dv_cr_index==2), predict(pr outcome(2))
4._predict: Pr(dv_cr_index==3), predict(pr outcome(3))
5._predict: Pr(dv_cr_index==4), predict(pr outcome(4))
6._predict: Pr(dv_cr_index==5), predict(pr outcome(5))
7._predict: Pr(dv_cr_index==6), predict(pr outcome(6))
8._predict: Pr(dv_cr_index==7), predict(pr outcome(7))

-------------------------------------------------------------------------------
              |            Delta-method
              |      dy/dx   std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |
     _predict |
           1  |  -.0678847   .0170045    -3.99   0.000    -.1012129   -.0345565
           2  |  -.1109971   .0329592    -3.37   0.001     -.175596   -.0463982
           3  |  -.0133519   .0045815    -2.91   0.004    -.0223314   -.0043724
           4  |   .0032238   .0058958     0.55   0.585    -.0083318    .0147794
           5  |   .0118384   .0039562     2.99   0.003     .0040845    .0195924
           6  |   .0254387    .004637     5.49   0.000     .0163504    .0345271
           7  |   .1179835   .0345512     3.41   0.001     .0502645    .1857026
           8  |   .0337492   .0164451     2.05   0.040     .0015173     .065981
-------------------------------------------------------------------------------

. margins, at(dispute_experienceshare = (0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
> ))

Predictive margins                                         Number of obs = 332
Model VCE: Robust

1._predict: Pr(dv_cr_index==0), predict(pr outcome(0))
2._predict: Pr(dv_cr_index==1), predict(pr outcome(1))
3._predict: Pr(dv_cr_index==2), predict(pr outcome(2))
4._predict: Pr(dv_cr_index==3), predict(pr outcome(3))
5._predict: Pr(dv_cr_index==4), predict(pr outcome(4))
6._predict: Pr(dv_cr_index==5), predict(pr outcome(5))
7._predict: Pr(dv_cr_index==6), predict(pr outcome(6))
8._predict: Pr(dv_cr_index==7), predict(pr outcome(7))

1._at:  dispute_experi~e =  0
2._at:  dispute_experi~e = .1
3._at:  dispute_experi~e = .2
4._at:  dispute_experi~e = .3
5._at:  dispute_experi~e = .4
6._at:  dispute_experi~e = .5
7._at:  dispute_experi~e = .6
8._at:  dispute_experi~e = .7
9._at:  dispute_experi~e = .8
10._at: dispute_experi~e = .9
11._at: dispute_experi~e =  1

------------------------------------------------------------------------------
             |            Delta-method
             |     Margin   std. err.      z    P>|z|     [95% conf. interval]
-------------+----------------------------------------------------------------
_predict#_at |
       1  1  |   .0782449   .0120193     6.51   0.000     .0546875    .1018023
       1  2  |   .0688526   .0100576     6.85   0.000       .04914    .0885652
       1  3  |   .0603679   .0088563     6.82   0.000     .0430098    .0777259
       1  4  |   .0527383    .008255     6.39   0.000     .0365588    .0689177
       1  5  |   .0459084   .0080339     5.71   0.000     .0301624    .0616545
       1  6  |   .0398216   .0079891     4.98   0.000     .0241632      .05548
       1  7  |   .0344204   .0079794     4.31   0.000     .0187811    .0500598
       1  8  |   .0296485   .0079262     3.74   0.000     .0141136    .0451835
       1  9  |   .0254508   .0077949     3.27   0.001     .0101731    .0407284
       1 10  |   .0217741   .0075772     2.87   0.004      .006923    .0366252
       1 11  |   .0185678   .0072792     2.55   0.011     .0043008    .0328348
       2  1  |   .2448555   .0257951     9.49   0.000     .1942981    .2954129
       2  2  |   .2317806   .0224922    10.30   0.000     .1876967    .2758646
       2  3  |   .2182689   .0193187    11.30   0.000      .180405    .2561328
       2  4  |   .2044929   .0166945    12.25   0.000     .1717723    .2372136
       2  5  |   .1906197    .015102    12.62   0.000     .1610203    .2202191
       2  6  |   .1768053   .0148728    11.89   0.000     .1476553    .2059554
       2  7  |   .1631922    .015905    10.26   0.000      .132019    .1943655
       2  8  |   .1499059    .017737     8.45   0.000     .1151421    .1846698
       2  9  |   .1370542   .0198818     6.89   0.000     .0980866    .1760217
       2 10  |   .1247261   .0219951     5.67   0.000     .0816165    .1678357
       2 11  |   .1129926     .02387     4.73   0.000     .0662083    .1597769
       3  1  |   .0702852   .0152757     4.60   0.000     .0403454     .100225
       3  2  |   .0696273   .0151319     4.60   0.000     .0399693    .0992852
       3  3  |    .068585   .0148303     4.62   0.000     .0395181    .0976518
       3  4  |   .0671624   .0143702     4.67   0.000     .0389974    .0953275
       3  5  |   .0653753    .013767     4.75   0.000     .0383924    .0923581
       3  6  |   .0632498   .0130536     4.85   0.000     .0376652    .0888343
       3  7  |   .0608217   .0122793     4.95   0.000     .0367547    .0848886
       3  8  |   .0581339   .0115069     5.05   0.000     .0355809    .0806869
       3  9  |   .0552341    .010806     5.11   0.000     .0340548    .0764134
       3 10  |    .052172   .0102426     5.09   0.000     .0320969    .0722471
       3 11  |   .0489974   .0098647     4.97   0.000      .029663    .0683319
       4  1  |   .1954873   .0251598     7.77   0.000      .146175    .2447996
       4  2  |   .1988236   .0266343     7.46   0.000     .1466213    .2510259
       4  3  |   .2014801   .0279654     7.20   0.000      .146669    .2562912
       4  4  |   .2033574   .0290444     7.00   0.000     .1464313    .2602834
       4  5  |   .2043669   .0297757     6.86   0.000     .1460075    .2627263
       4  6  |   .2044351   .0300842     6.80   0.000     .1454712     .263399
       4  7  |   .2035064    .029923     6.80   0.000     .1448583    .2621545
       4  8  |   .2015468   .0292821     6.88   0.000     .1441549    .2589388
       4  9  |   .1985463   .0281964     7.04   0.000     .1432824    .2538102
       4 10  |   .1945202   .0267551     7.27   0.000     .1420813    .2469592
       4 11  |   .1895097    .025111     7.55   0.000      .140293    .2387264
       5  1  |   .0645176   .0158376     4.07   0.000     .0334764    .0955587
       5  2  |   .0666057   .0162437     4.10   0.000     .0347687    .0984426
       5  3  |   .0687064   .0166573     4.12   0.000     .0360588    .1013541
       5  4  |   .0707764    .017077     4.14   0.000     .0373061    .1042467
       5  5  |   .0727699   .0174962     4.16   0.000     .0384779    .1070619
       5  6  |   .0746402   .0179033     4.17   0.000     .0395504    .1097299
       5  7  |   .0763402   .0182826     4.18   0.000      .040507    .1121735
       5  8  |    .077824   .0186171     4.18   0.000     .0413352    .1143127
       5  9  |   .0790466     .01889     4.18   0.000     .0420228    .1160703
       5 10  |   .0799655   .0190879     4.19   0.000     .0425539    .1173771
       5 11  |   .0805413   .0192029     4.19   0.000     .0429042    .1181784
       6  1  |   .1092505   .0155707     7.02   0.000     .0787325    .1397685
       6  2  |   .1122442   .0159103     7.05   0.000     .0810607    .1434277
       6  3  |   .1155039   .0162674     7.10   0.000     .0836203    .1473874
       6  4  |   .1190123   .0166578     7.14   0.000     .0863637    .1516609
       6  5  |   .1227353   .0170994     7.18   0.000      .089221    .1562496
       6  6  |   .1266237   .0176068     7.19   0.000     .0921151    .1611323
       6  7  |   .1306151   .0181831     7.18   0.000     .0949768    .1662534
       6  8  |   .1346367   .0188162     7.16   0.000     .0977576    .1715159
       6  9  |    .138608   .0194773     7.12   0.000     .1004332    .1767828
       6 10  |   .1424429   .0201245     7.08   0.000     .1029995    .1818862
       6 11  |   .1460523   .0207098     7.05   0.000     .1054617    .1866428
       7  1  |   .2335535   .0405802     5.76   0.000     .1540177    .3130893
       7  2  |   .2474941    .036882     6.71   0.000     .1752068    .3197814
       7  3  |   .2616015   .0332361     7.87   0.000       .19646    .3267429
       7  4  |   .2758851   .0297388     9.28   0.000     .2175982    .3341721
       7  5  |   .2903568   .0265268    10.95   0.000     .2383652    .3423483
       7  6  |   .3050271   .0238028    12.81   0.000     .2583745    .3516798
       7  7  |   .3199034   .0218526    14.64   0.000     .2770731    .3627336
       7  8  |   .3349861   .0210084    15.95   0.000     .2938104    .3761618
       7  9  |   .3502676   .0215173    16.28   0.000     .3080944    .3924407
       7 10  |   .3657297   .0233904    15.64   0.000     .3198854     .411574
       7 11  |   .3813436   .0264072    14.44   0.000     .3295864    .4331007
       8  1  |   .0038055   .0023055     1.65   0.099    -.0007132    .0083241
       8  2  |   .0045719   .0026163     1.75   0.081     -.000556    .0096999
       8  3  |   .0054865   .0029695     1.85   0.065    -.0003336    .0113066
       8  4  |   .0065752    .003374     1.95   0.051    -.0000377    .0131882
       8  5  |   .0078677   .0038423     2.05   0.041      .000337    .0153984
       8  6  |   .0093972    .004391     2.14   0.032      .000791    .0180034
       8  7  |   .0112006   .0050421     2.22   0.026     .0013183    .0210829
       8  8  |    .013318   .0058229     2.29   0.022     .0019053    .0247307
       8  9  |   .0157926   .0067665     2.33   0.020     .0025305    .0290546
       8 10  |   .0186695   .0079101     2.36   0.018      .003166     .034173
       8 11  |   .0219953   .0092939     2.37   0.018     .0037795    .0402111
------------------------------------------------------------------------------

. 
. mgen, at(dispute_experienceshare = (0(0.1)1)) expression(predict(outcome(0))+p
> redict(outcome(1))+predict(outcome(2))+predict(outcome(3))+predict(outcome(4))
> ) saving(file_asy_neg, replace)

Predictions from: margins, at(dispute_experienceshare = (0(0.1)1)) saving(file_a
> sy_neg, replace) expression(predict(outcome())+predict(outcome(1))+predict(out
> come(2))+predict(outcome(3))+predict(outcome(4)))

Variable      Obs Unique      Mean       Min       Max  Label
--------------------------------------------------------------------------------
_margin        11     11  .5561315  .4506088  .6533905  Margin dv_cr_index fr...
_ll            11     11  .5077284  .4025652  .5710545  95% lower limit
_ul            11     11  .6045346  .4986525  .7357265  95% upper limit
_dispute_e~e   11     11        .5         0         1  dispute_experienceshare
--------------------------------------------------------------------------------

. 
. drop _margin _ll _ul _dispute_experienceshare

. 
. mgen, at(dispute_experienceshare = (0(0.1)1)) expression(predict(outcome(5))+p
> redict(outcome(6))+predict(outcome(7)))  saving(file_asy_pos, replace)

Predictions from: margins, at(dispute_experienceshare = (0(0.1)1)) saving(file_a
> sy_pos, replace) expression(predict(outcome())+predict(outcome(6))+predict(out
> come(7)))

Variable      Obs Unique      Mean       Min       Max  Label
--------------------------------------------------------------------------------
_margin        11     11  .4438685  .3466095  .5493912  Margin dv_cr_index fr...
_ll            11     11  .3954654  .2642735  .5013474  95% lower limit
_ul            11     11  .4922716  .4289455  .5974349  95% upper limit
_dispute_e~e   11     11        .5         0         1  dispute_experienceshare
--------------------------------------------------------------------------------

. 
. combomarginsplot file_asy_neg file_asy_pos , labels("Less than WTO DSU" "More 
> than/Equal WTO DSU")  file1opts(pstyle(p1)) file2opts(pstyle(p2))  lplot1(mfco
> lor(white)) ytitle("Predicted Probability")  ///
> xtitle("Share of Parties with {bf:Dispute Experience}")  recast(line) recastci
> (rarea) plot1opt(color(navy%80)) ci1opt(color(navy%20)) plot2opt(color(cranber
> ry%80)) ci2opt(color(cranberry%20)) graphregion(color(white)) title("") addplo
> t(hist ex_histo, blcolor(black) fcolor(black) discrete yaxis(2) yscale(alt lst
> yle(none)  lcolor( ) axis(2)) ylabel(0 " " 20000 " " 40000 " " 60000 " ", labc
> olor() axis(2) tlcolor() tlwidth(0) labsize(small) tl(0)) ytitle(" ", axis(2))
>  legend(order(3 "Fewer CR than WTO DSU" 4 "More CR than or equal to WTO DSU"))
>  legend(size(vsmall)))

  Variables that uniquely identify margins: dispute_experienceshare
      _filenumber

. graph save fig6_left, replace
file fig6_left.gph saved

. graph export "fig6_left", as(eps) replace
file fig6_left saved as EPS format

. 
. 
. ologit dv_cr_index pta_dispute_asymmetry bc_mission_diff market_access_diff   
> retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_p
> arties dv_cr_previouspta i.year if year > 1994, vce(cluster year)

Iteration 0:   log pseudolikelihood = -431.89222  
Iteration 1:   log pseudolikelihood =  -312.9341  
Iteration 2:   log pseudolikelihood = -295.12339  
Iteration 3:   log pseudolikelihood = -294.67956  
Iteration 4:   log pseudolikelihood = -294.67821  
Iteration 5:   log pseudolikelihood = -294.67821  

Ordered logistic regression                             Number of obs =    260
                                                        Wald chi2(8)  =      .
                                                        Prob > chi2   =      .
Log pseudolikelihood = -294.67821                       Pseudo R2     = 0.3177

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -2.574075   .8868481    -2.90   0.004    -4.312265   -.8358843
bc_mission_~f |   .0835244   .0460867     1.81   0.070    -.0068038    .1738526
market_acce~f |  -1.648065   .7803223    -2.11   0.035    -3.177468   -.1186611
retaliatory~f |  -.0707959   .1241056    -0.57   0.568    -.3140385    .1724467
    wto_share |   1.718588   .9862919     1.74   0.081    -.2145088    3.651684
all_democracy |   .0803849   .5263294     0.15   0.879    -.9512017    1.111972
pta_depth_i~x |   .9138441   .1476402     6.19   0.000     .6244747    1.203214
number_part~s |   .0363176   .0248756     1.46   0.144    -.0124377     .085073
dv_cr_previ~a |   1.020083   .3326258     3.07   0.002      .368148    1.672017
              |
         year |
        1996  |   .0131248   .2170546     0.06   0.952    -.4122943     .438544
        1997  |   .5656982   .3304046     1.71   0.087    -.0818829    1.213279
        1998  |   .7734585   .3225102     2.40   0.016     .1413501    1.405567
        1999  |  -.6026127   .4413881    -1.37   0.172    -1.467718    .2624921
        2000  |  -.3355976   .5538537    -0.61   0.545    -1.421131    .7499357
        2001  |   .5342684   .2768923     1.93   0.054    -.0084306    1.076967
        2002  |   .5600013   .2729299     2.05   0.040     .0250685    1.094934
        2003  |   .3374876   .2234935     1.51   0.131    -.1005515    .7755268
        2004  |   2.265167   .3612596     6.27   0.000     1.557111    2.973223
        2005  |   .4186711   .5242472     0.80   0.425    -.6088344    1.446177
        2006  |   .4847188   .4611337     1.05   0.293    -.4190866    1.388524
        2007  |   .6852147   .3492404     1.96   0.050     .0007162    1.369713
        2008  |   .3338197   .3837194     0.87   0.384    -.4182566    1.085896
        2009  |   .4866011    .406622     1.20   0.231    -.3103633    1.283566
        2010  |   1.510673   .5275206     2.86   0.004     .4767514    2.544594
        2011  |   1.103543   .4930396     2.24   0.025     .1372027    2.069883
        2012  |   1.151471   .5994361     1.92   0.055    -.0234026    2.326344
        2013  |   1.325108   .5434454     2.44   0.015      .259975    2.390242
        2014  |   .0103273    .436395     0.02   0.981    -.8449912    .8656457
        2015  |  -.2845001   .9958077    -0.29   0.775    -2.236247    1.667247
        2016  |  -2.204892   .6020249    -3.66   0.000    -3.384839   -1.024945
--------------+----------------------------------------------------------------
        /cut1 |   1.669789   1.324681                     -.9265371    4.266115
        /cut2 |   4.272175   1.364636                      1.597539    6.946812
        /cut3 |   4.761592   1.327938                      2.158882    7.364301
        /cut4 |   6.293849   1.317677                       3.71125    8.876449
        /cut5 |   6.908998   1.284583                      4.391262    9.426734
        /cut6 |   8.273956   1.330758                      5.665719    10.88219
        /cut7 |   14.45163   1.500939                      11.50985    17.39342
-------------------------------------------------------------------------------

. 
. sort pta_dispute_asymmetry

.  quietly by pta_dispute_asymmetry:  gen dupdahist = cond(_N==1,0,_n)

.  gen dahisto=.
(550 missing values generated)

.  replace dahisto=pta_dispute_asymmetry if dupdahist==0 | dupdahist==1
(199 real changes made)

.  
. margins, dydx(pta_dispute_asymmetry)

Average marginal effects                                   Number of obs = 260
Model VCE: Robust

dy/dx wrt: pta_dispute_asymmetry

1._predict: Pr(dv_cr_index==0), predict(pr outcome(0))
2._predict: Pr(dv_cr_index==1), predict(pr outcome(1))
3._predict: Pr(dv_cr_index==2), predict(pr outcome(2))
4._predict: Pr(dv_cr_index==3), predict(pr outcome(3))
5._predict: Pr(dv_cr_index==4), predict(pr outcome(4))
6._predict: Pr(dv_cr_index==5), predict(pr outcome(5))
7._predict: Pr(dv_cr_index==6), predict(pr outcome(6))
8._predict: Pr(dv_cr_index==7), predict(pr outcome(7))

-------------------------------------------------------------------------------
              |            Delta-method
              |      dy/dx   std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |
     _predict |
           1  |   .0528423   .0188958     2.80   0.005     .0158071    .0898774
           2  |   .1349336   .0433193     3.11   0.002     .0500293    .2198378
           3  |   .0299673   .0146156     2.05   0.040     .0013211    .0586134
           4  |   .0613113   .0275684     2.22   0.026     .0072782    .1153443
           5  |   .0007768   .0046347     0.17   0.867     -.008307    .0098605
           6  |  -.0348033   .0128662    -2.71   0.007    -.0600207   -.0095859
           7  |  -.1860558   .0713253    -2.61   0.009    -.3258508   -.0462608
           8  |   -.058972    .026156    -2.25   0.024    -.1102369   -.0077072
-------------------------------------------------------------------------------

. margins, at(pta_dispute_asymmetry = (0 0.1 0.2 0.3 0.4 0.5))

Predictive margins                                         Number of obs = 260
Model VCE: Robust

1._predict: Pr(dv_cr_index==0), predict(pr outcome(0))
2._predict: Pr(dv_cr_index==1), predict(pr outcome(1))
3._predict: Pr(dv_cr_index==2), predict(pr outcome(2))
4._predict: Pr(dv_cr_index==3), predict(pr outcome(3))
5._predict: Pr(dv_cr_index==4), predict(pr outcome(4))
6._predict: Pr(dv_cr_index==5), predict(pr outcome(5))
7._predict: Pr(dv_cr_index==6), predict(pr outcome(6))
8._predict: Pr(dv_cr_index==7), predict(pr outcome(7))

1._at: pta_dispute_as~y =  0
2._at: pta_dispute_as~y = .1
3._at: pta_dispute_as~y = .2
4._at: pta_dispute_as~y = .3
5._at: pta_dispute_as~y = .4
6._at: pta_dispute_as~y = .5

------------------------------------------------------------------------------
             |            Delta-method
             |     Margin   std. err.      z    P>|z|     [95% conf. interval]
-------------+----------------------------------------------------------------
_predict#_at |
        1 1  |   .0192129   .0064333     2.99   0.003     .0066038     .031822
        1 2  |    .023334   .0067816     3.44   0.001     .0100422    .0366257
        1 3  |   .0281908   .0073269     3.85   0.000     .0138304    .0425512
        1 4  |   .0338855   .0082855     4.09   0.000     .0176461    .0501249
        1 5  |   .0405279   .0099095     4.09   0.000     .0211056    .0599502
        1 6  |   .0482336   .0124183     3.88   0.000     .0238942    .0725731
        2 1  |    .089376     .01629     5.49   0.000     .0574482    .1213038
        2 2  |   .1019359   .0149962     6.80   0.000      .072544    .1313279
        2 3  |   .1155203   .0142967     8.08   0.000     .0874992    .1435414
        2 4  |   .1300345   .0149541     8.70   0.000      .100725     .159344
        2 5  |   .1453327   .0173868     8.36   0.000     .1112552    .1794102
        2 6  |    .161214   .0213243     7.56   0.000     .1194192    .2030089
        3 1  |   .0332237   .0085032     3.91   0.000     .0165578    .0498896
        3 2  |   .0365782   .0092564     3.95   0.000     .0184359    .0547204
        3 3  |   .0399097   .0102199     3.91   0.000      .019879    .0599404
        3 4  |   .0431305   .0113079     3.81   0.000     .0209674    .0652936
        3 5  |   .0461454   .0124012     3.72   0.000     .0218394    .0704514
        3 6  |    .048857   .0133767     3.65   0.000     .0226392    .0750748
        4 1  |   .1425864   .0254916     5.59   0.000     .0926239    .1925489
        4 2  |   .1507812   .0274415     5.49   0.000     .0969969    .2045655
        4 3  |    .157815   .0293234     5.38   0.000     .1003422    .2152878
        4 4  |   .1634723   .0307659     5.31   0.000     .1031723    .2237724
        4 5  |   .1675967   .0315387     5.31   0.000     .1057821    .2294114
        4 6  |   .1701058   .0315744     5.39   0.000     .1082211    .2319904
        5 1  |   .0683573   .0184393     3.71   0.000     .0322169    .1044977
        5 2  |   .0692447   .0188608     3.67   0.000     .0322783    .1062111
        5 3  |   .0694417   .0190259     3.65   0.000     .0321515    .1067319
        5 4  |    .068992    .018955     3.64   0.000     .0318408    .1061432
        5 5  |   .0679737   .0187032     3.63   0.000     .0313162    .1046313
        5 6  |   .0664947   .0183389     3.63   0.000     .0305511    .1024384
        6 1  |   .1502608   .0214547     7.00   0.000     .1082104    .1923112
        6 2  |   .1473831   .0211895     6.96   0.000     .1058526    .1889137
        6 3  |   .1437628   .0210476     6.83   0.000     .1025103    .1850153
        6 4  |   .1397011   .0210286     6.64   0.000     .0984857    .1809164
        6 5  |    .135508    .021072     6.43   0.000     .0942077    .1768083
        6 6  |    .131476   .0210688     6.24   0.000     .0901819    .1727701
        7 1  |   .4649475   .0305646    15.21   0.000     .4050421    .5248529
        7 2  |   .4450411   .0255191    17.44   0.000     .3950246    .4950576
        7 3  |   .4248749   .0225502    18.84   0.000     .3806773    .4690725
        7 4  |   .4045498   .0225964    17.90   0.000     .3602616     .448838
        7 5  |   .3841117   .0256386    14.98   0.000      .333861    .4343625
        7 6  |    .363561   .0308045    11.80   0.000     .3031853    .4239366
        8 1  |   .0320353   .0127902     2.50   0.012      .006967    .0571037
        8 2  |   .0257018   .0108724     2.36   0.018     .0043922    .0470114
        8 3  |   .0204848    .009417     2.18   0.030     .0020278    .0389418
        8 4  |   .0162342   .0082455     1.97   0.049     .0000734     .032395
        8 5  |   .0128038   .0072412     1.77   0.077    -.0013887    .0269964
        8 6  |   .0100579   .0063418     1.59   0.113    -.0023718    .0224876
------------------------------------------------------------------------------

. 
. drop _margin _ul  _ll

. 
. mgen, at(pta_dispute_asymmetry = (0(0.1)0.5)) expression(predict(outcome(0))+p
> redict(outcome(1))+predict(outcome(2))+predict(outcome(3))+predict(outcome(4))
> )  saving(margdispute_neg4, replace)

Predictions from: margins, at(pta_dispute_asymmetry = (0(0.1)0.5)) saving(margdi
> spute_neg4, replace) expression(predict(outcome())+predict(outcome(1))+predict
> (outcome(2))+predict(outcome(3))+predict(outcome(4)))

Variable      Obs Unique      Mean       Min       Max  Label
--------------------------------------------------------------------------------
_margin         6      6  .4245841  .3527564  .4949051  Margin dv_cr_index fr...
_ll             6      6  .3783867  .3202518  .4175211  95% lower limit
_ul             6      6  .4707814  .3852609  .5722892  95% upper limit
_pta_dispu~y    6      6       .25         0        .5  pta_dispute_asymmetry
--------------------------------------------------------------------------------

. 
. drop _margin _ul _pta_dispute_asymmetry _ll

. 
. mgen, at(pta_dispute_asymmetry = (0(0.1)0.5)) expression(predict(outcome(5))+p
> redict(outcome(6))+predict(outcome(7)))  saving(margdispute_pos4, replace)

Predictions from: margins, at(pta_dispute_asymmetry = (0(0.1)0.5)) saving(margdi
> spute_pos4, replace) expression(predict(outcome())+predict(outcome(6))+predict
> (outcome(7)))

Variable      Obs Unique      Mean       Min       Max  Label
--------------------------------------------------------------------------------
_margin         6      6  .5754159  .5050948  .6472436  Margin dv_cr_index fr...
_ll             6      6  .5292186  .4277108  .6147391  95% lower limit
_ul             6      6  .6216133  .5824789  .6797482  95% upper limit
_pta_dispu~y    6      6       .25         0        .5  pta_dispute_asymmetry
--------------------------------------------------------------------------------

. 
. combomarginsplot margdispute_neg4 margdispute_pos4 , labels("Less than WTO DSU
> " "More than/Equal WTO DSU")  file1opts(pstyle(p1)) file2opts(pstyle(p2))  lpl
> ot1(mfcolor(white)) ///
> xtitle("{bf:Trade Dispute Asymmetry}") ytitle("Predicted Probability")  recast
> (line) recastci(rarea) plot1opt(color(navy%80)) ci1opt(color(navy%20)) plot2op
> t(color(cranberry%80)) ci2opt(color(cranberry%20)) graphregion(color(white)) t
> itle("") addplot(hist dahisto, blcolor(black) fcolor(black) discrete yaxis(2) 
> yscale(alt lstyle(none)  lcolor( ) axis(2)) ylabel(0 " " 20000 " " 40000 " " 6
> 0000 " ", labcolor() axis(2) tlcolor() tlwidth(0) labsize(small) tl(0)) ytitle
> (" ", axis(2)) legend(order(3 "Less than WTO DSU" 4 "More than/Equal WTO DSU")
> ))

  Variables that uniquely identify margins: pta_dispute_asymmetry _filenumber

. graph save fig6_right, replace
file fig6_right.gph saved

. graph export "fig6_right", as(eps)  replace
file fig6_right saved as EPS format

. 
. grc1leg2 fig6_left.gph fig6_right.gph , col(2) ycommon iscale(.6) ysize(1) xsi
> ze(1.5) graphregion(margin(zero)) graphregion(color(white))
-grc1leg2- working...

. graph save fig6, replace
file fig6.gph saved

. graph export "fig6.eps", as(eps) replace
file fig6.eps saved as EPS format

. 
. 
. *** Table 3 - Component and time horizon models 
. 
. xtreg  dv_cr_pca  dispute_10experienceshare   bc_gdp_diff   market_access_diff
>    retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numbe
> r_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5655                                         min =          3
     Between = 0.9105                                         avg =       15.1
     Overall = 0.7136                                         max =         25

                                                F(9,21)           =      47.02
corr(u_i, Xb) = 0.4149                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   1.378088   .2339504     5.89   0.000     .8915619    1.864615
  bc_gdp_diff |   .1173117   .0706794     1.66   0.112    -.0296742    .2642977
market_acce~f |   -.529711   .2286374    -2.32   0.031    -1.005189   -.0542334
retaliatory~f |   .0116073   .0385331     0.30   0.766    -.0685267    .0917412
    wto_share |  -.0237295   .2364474    -0.10   0.921    -.5154488    .4679897
all_democracy |  -.1167805    .194231    -0.60   0.554    -.5207061     .287145
pta_depth_i~x |   .4487447   .0508812     8.82   0.000     .3429313     .554558
number_part~s |   .0154482   .0121051     1.28   0.216    -.0097257    .0406222
dv_cr_previ~a |   .2922365   .1426977     2.05   0.053    -.0045196    .5889926
        _cons |  -1.970025   .3499993    -5.63   0.000    -2.697888   -1.242161
--------------+----------------------------------------------------------------
      sigma_u |  .48286264
      sigma_e |  1.0243833
          rho |  .18179582   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca    pta_dispute10_asymmetry bc_gdp_diff   market_access_diff  
>  retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_
> parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5192                                         min =          3
     Between = 0.8800                                         avg =       11.4
     Overall = 0.6252                                         max =         21

                                                F(9,21)           =      35.67
corr(u_i, Xb) = 0.3741                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~0_asymmetry |  -1.362737   .4939058    -2.76   0.012    -2.389871   -.3356037
  bc_gdp_diff |    .146984   .0682502     2.15   0.043       .00505    .2889181
market_acce~f |  -.8200246   .2882106    -2.85   0.010    -1.419391   -.2206578
retaliatory~f |  -.0692679   .0546458    -1.27   0.219    -.1829102    .0443743
    wto_share |   1.113927   .6314693     1.76   0.092    -.1992853    2.427139
all_democracy |  -.0181731   .2621886    -0.07   0.945    -.5634242    .5270781
pta_depth_i~x |   .4273821   .0571984     7.47   0.000     .3084316    .5463327
number_part~s |   .0209435    .012574     1.67   0.111    -.0052055    .0470925
dv_cr_previ~a |   .3022739   .1456982     2.07   0.051    -.0007221    .6052698
        _cons |   -1.70914   .8118804    -2.11   0.047    -3.397538   -.0207429
--------------+----------------------------------------------------------------
      sigma_u |  .49820177
      sigma_e |  1.0804648
          rho |  .17533442   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  dispute_10experienceshare pta_dispute10_asymmetry  bc_gdp_di
> ff  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5247                                         min =          3
     Between = 0.8684                                         avg =       11.4
     Overall = 0.6274                                         max =         21

                                                F(10,21)          =      41.17
corr(u_i, Xb) = 0.3463                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   .6384198   .4314299     1.48   0.154    -.2587879    1.535627
p~0_asymmetry |   -1.15207   .5006513    -2.30   0.032    -2.193231   -.1109083
  bc_gdp_diff |   .1593195    .071369     2.23   0.037     .0108996    .3077394
market_acce~f |  -.7214998   .3139861    -2.30   0.032     -1.37447   -.0685299
retaliatory~f |  -.0637449   .0525936    -1.21   0.239    -.1731193    .0456295
    wto_share |   .7859217   .6032662     1.30   0.207    -.4686391    2.040482
all_democracy |   -.026669   .2571136    -0.10   0.918    -.5613661     .508028
pta_depth_i~x |   .4185433   .0547911     7.64   0.000     .3045988    .5324877
number_part~s |   .0239696    .013292     1.80   0.086    -.0036727    .0516119
dv_cr_previ~a |   .2994115   .1500112     2.00   0.059    -.0125538    .6113768
        _cons |  -1.980883   .9238631    -2.14   0.044    -3.902161   -.0596043
--------------+----------------------------------------------------------------
      sigma_u |  .49627095
      sigma_e |  1.0766563
          rho |  .17523264   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare  bc_mission_diff     market_acc
> ess_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_inde
> x  number_parties  dv_cr_previouspta if year>1994, group(year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (53 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood =  -42.49714  
Iteration 1:   log pseudolikelihood = -39.742223  
Iteration 2:   log pseudolikelihood = -39.458521  
Iteration 3:   log pseudolikelihood = -39.438693  
Iteration 4:   log pseudolikelihood = -39.437939  
Iteration 5:   log pseudolikelihood = -39.437936  

Conditional (fixed-effects) logistic regression         Number of obs =    279
                                                        Wald chi2(9)  =  58.56
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -39.437936                       Pseudo R2     = 0.6399

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   6.465134    1.72848     3.74   0.000     3.077374    9.852893
bc_mission_~f |   .2082081    .077821     2.68   0.007     .0556817    .3607346
market_acce~f |  -.0605029   1.074809    -0.06   0.955     -2.16709    2.046084
retaliatory~f |  -.2284766   .1461866    -1.56   0.118    -.5149971     .058044
    wto_share |   .3642171   1.915435     0.19   0.849    -3.389966      4.1184
all_democracy |   .7863022   .5708303     1.38   0.168    -.3325046    1.905109
pta_depth_i~x |   .9398713   .1832988     5.13   0.000     .5806122     1.29913
number_part~s |   .0765748   .0469072     1.63   0.103    -.0153616    .1685113
dv_cr_previ~a |   .1635642   .4606894     0.36   0.723    -.7393704    1.066499
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare pta_dispute_asymmetry  bc_missi
> on_diff     market_access_diff   retaliatory_capacity_diff  wto_share all_demo
> cracy   pta_depth_index  number_parties  dv_cr_previouspta if year>1994, group
> (year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (42 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood = -41.307256  
Iteration 1:   log pseudolikelihood = -38.291169  
Iteration 2:   log pseudolikelihood = -38.143772  
Iteration 3:   log pseudolikelihood = -38.142055  
Iteration 4:   log pseudolikelihood = -38.142054  

Conditional (fixed-effects) logistic regression         Number of obs =    218
                                                        Wald chi2(10) = 417.77
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -38.142054                       Pseudo R2     = 0.6025

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   5.747686   1.882526     3.05   0.002     2.058003    9.437368
p~e_asymmetry |  -3.868962   2.070345    -1.87   0.062    -7.926763    .1888392
bc_mission_~f |   .2235821   .0746783     2.99   0.003     .0772152    .3699489
market_acce~f |  -.4786545   1.118756    -0.43   0.669    -2.671375    1.714066
retaliatory~f |  -.3031047   .1253505    -2.42   0.016    -.5487873   -.0574221
    wto_share |   1.114338   1.948914     0.57   0.567    -2.705464    4.934139
all_democracy |   .8664198     .59578     1.45   0.146    -.3012874    2.034127
pta_depth_i~x |   .9547314   .2128247     4.49   0.000     .5376026     1.37186
number_part~s |    .091312    .037353     2.44   0.015     .0181015    .1645225
dv_cr_previ~a |   .1016908   .4862465     0.21   0.834    -.8513348    1.054716
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare bc_gdp_diff  market_access_diff   
> retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_p
> arties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5588                                         min =          3
     Between = 0.8907                                         avg =       15.1
     Overall = 0.6852                                         max =         25

                                                F(9,21)           =     114.36
corr(u_i, Xb) = 0.1911                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.372944   .2409305     5.70   0.000     .8719017    1.873986
  bc_gdp_diff |    .134597   .0538453     2.50   0.021     .0226197    .2465744
market_acce~f |    -.38984   .2331689    -1.67   0.109    -.8747413    .0950612
retaliatory~f |   .0165543   .0357715     0.46   0.648    -.0578367    .0909453
    wto_share |  -.1361022   .2642262    -0.52   0.612    -.6855907    .4133862
all_democracy |  -.0511958   .1612116    -0.32   0.754    -.3864536    .2840621
pta_depth_i~x |   .3483881    .045867     7.60   0.000     .2530024    .4437739
number_part~s |   .0145601   .0111655     1.30   0.206    -.0086598      .03778
dv_cr_previ~a |   .3160242   .1233954     2.56   0.018     .0594093     .572639
        _cons |  -1.868085   .3440574    -5.43   0.000    -2.583592   -1.152579
--------------+----------------------------------------------------------------
      sigma_u |  .37970568
      sigma_e |  .92333681
          rho |   .1446498   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare pta_dispute_asymmetry bc_gdp_diff 
>     market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5037                                         min =          3
     Between = 0.8122                                         avg =       11.8
     Overall = 0.5878                                         max =         22

                                                F(10,21)          =      32.28
corr(u_i, Xb) = 0.1492                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .5038152   .3577731     1.41   0.174    -.2402146    1.247845
p~e_asymmetry |  -1.175732   .5568268    -2.11   0.047    -2.333717   -.0177476
  bc_gdp_diff |   .1908745    .051745     3.69   0.001     .0832649    .2984841
market_acce~f |  -.6173933   .3248824    -1.90   0.071    -1.293023    .0582367
retaliatory~f |  -.0334415   .0562461    -0.59   0.558    -.1504116    .0835286
    wto_share |   .6568288   .5343579     1.23   0.233    -.4544293    1.768087
all_democracy |  -.0071987   .2216274    -0.03   0.974    -.4680982    .4537009
pta_depth_i~x |   .3568432   .0492135     7.25   0.000     .2544982    .4591883
number_part~s |   .0187555    .013579     1.38   0.182    -.0094834    .0469945
dv_cr_previ~a |    .255671   .1453596     1.76   0.093    -.0466207    .5579628
        _cons |  -1.688413   .7966193    -2.12   0.046    -3.345073   -.0317522
--------------+----------------------------------------------------------------
      sigma_u |   .3894362
      sigma_e |  .94950385
          rho |  .14399729   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. 
. ******************************************
. * ROBUSTNESS CHECKS - PTA level analysis *
. ******************************************
. 
. ** Table 5 **
. 
. feologit dv_cr_index dispute_experienceshare bc_mission_diff bc_mission_min ma
> rket_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_de
> pth_index  number_parties dv_cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -559.03224  
Iteration 1:   log conditional likelihood = -488.14926  
Iteration 2:   log conditional likelihood = -487.34416  
Iteration 3:   log conditional likelihood = -487.34127  
Iteration 4:   log conditional likelihood = -487.34127  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       2209
                                         N. of observations       =        435
                                         N. of panel units        =         34
                                         Wald chi2(10)            =     372.03
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -487.34127  Pseudo R2                =     0.4653
                                   (Std. err. adjusted for 34 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.564585   .4625211     3.38   0.001       .65806     2.47111
bc_mission_~f |   .0928142   .0323319     2.87   0.004     .0294449    .1561834
bc_mission_~n |   .0772419   .0483579     1.60   0.110    -.0175378    .1720216
market_acce~f |  -1.162355   .4640079    -2.51   0.012    -2.071794   -.2529163
retaliatory~f |  -.0134313   .0548803    -0.24   0.807    -.1209947    .0941321
    wto_share |  -.5232117   .5545909    -0.94   0.345     -1.61019    .5637665
all_democracy |   .0426247   .3770451     0.11   0.910    -.6963702    .7816196
pta_depth_i~x |   .9455092   .1142607     8.28   0.000     .7215623    1.169456
number_part~s |   .0479397   .0157196     3.05   0.002     .0171299    .0787496
dv_cr_previ~a |   .8361353   .2640219     3.17   0.002     .3186619    1.353609
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index  pta_dispute_asymmetry   bc_mission_diff  bc_mission_min 
> market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_
> depth_index  number_parties dv_cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -388.42308  
Iteration 1:   log conditional likelihood = -347.42345  
Iteration 2:   log conditional likelihood = -346.79472  
Iteration 3:   log conditional likelihood = -346.79236  
Iteration 4:   log conditional likelihood = -346.79236  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1584
                                         N. of observations       =        329
                                         N. of panel units        =         31
                                         Wald chi2(10)            =     333.02
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -346.79236  Pseudo R2                =     0.4612
                                   (Std. err. adjusted for 31 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -1.588919   .9173432    -1.73   0.083    -3.386879    .2090405
bc_mission_~f |   .1209268   .0380655     3.18   0.001     .0463198    .1955338
bc_mission_~n |   .0983774   .0449492     2.19   0.029     .0102785    .1864763
market_acce~f |  -1.550277   .5279404    -2.94   0.003    -2.585021   -.5155324
retaliatory~f |  -.1184439   .0861051    -1.38   0.169    -.2872068     .050319
    wto_share |    .831751   .8155451     1.02   0.308    -.7666879     2.43019
all_democracy |   .0599898   .4557062     0.13   0.895    -.8331778    .9531575
pta_depth_i~x |    .974123   .1143211     8.52   0.000     .7500578    1.198188
number_part~s |   .0634081   .0203975     3.11   0.002     .0234298    .1033864
dv_cr_previ~a |   .6524973   .2955673     2.21   0.027      .073196    1.231799
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare   bc_mission_diff bc_mission_min 
> market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_
> depth_index  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -425.69485  
Iteration 1:   log conditional likelihood = -374.53915  
Iteration 2:   log conditional likelihood = -373.56075  
Iteration 3:   log conditional likelihood = -373.55638  
Iteration 4:   log conditional likelihood = -373.55638  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1677
                                         N. of observations       =        319
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     368.27
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -373.55638  Pseudo R2                =     0.4665
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   2.066855   .5668162     3.65   0.000     .9559159    3.177795
bc_mission_~f |   .0641954   .0407587     1.58   0.115    -.0156902     .144081
bc_mission_~n |    .042725   .0596365     0.72   0.474    -.0741604    .1596103
market_acce~f |  -1.108692   .6041551    -1.84   0.066    -2.292814    .0754305
retaliatory~f |    .015339   .0779154     0.20   0.844    -.1373723    .1680504
    wto_share |  -.2895797   .6494863    -0.45   0.656    -1.562549    .9833901
all_democracy |  -.0478807   .4678677    -0.10   0.918    -.9648845    .8691232
pta_depth_i~x |   .8989894   .1506245     5.97   0.000     .6037708    1.194208
number_part~s |   .0323439   .0167787     1.93   0.054    -.0005417    .0652296
dv_cr_previ~a |   .7644711   .3189498     2.40   0.017     .1393409    1.389601
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index pta_dispute_asymmetry   bc_mission_diff bc_mission_min ma
> rket_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_de
> pth_index  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -291.24112  
Iteration 1:   log conditional likelihood = -260.64733  
Iteration 2:   log conditional likelihood =  -260.1196  
Iteration 3:   log conditional likelihood = -260.11842  
Iteration 4:   log conditional likelihood = -260.11842  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     318.57
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -260.11842  Pseudo R2                =     0.4671
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -3.340382   .9654849    -3.46   0.001    -5.232697   -1.448066
bc_mission_~f |   .1016166   .0431585     2.35   0.019     .0170276    .1862056
bc_mission_~n |   .0598355   .0558778     1.07   0.284    -.0496831     .169354
market_acce~f |  -1.798648   .7135401    -2.52   0.012    -3.197161   -.4001353
retaliatory~f |  -.1179524   .1197141    -0.99   0.324    -.3525877     .116683
    wto_share |   2.011127    1.02912     1.95   0.051     -.005911    4.028165
all_democracy |   .0553674   .5577635     0.10   0.921    -1.037829    1.148564
pta_depth_i~x |   .9569942   .1499645     6.38   0.000     .6630691    1.250919
number_part~s |   .0538276   .0220456     2.44   0.015      .010619    .0970363
dv_cr_previ~a |   .6101424   .3218552     1.90   0.058    -.0206822    1.240967
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_mission_
> diff bc_mission_min market_access_diff   retaliatory_capacity_diff  wto_share 
> all_democracy   pta_depth_index  number_parties dv_cr_previouspta if year > 19
> 94, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -290.45035  
Iteration 1:   log conditional likelihood = -258.73083  
Iteration 2:   log conditional likelihood = -258.25053  
Iteration 3:   log conditional likelihood = -258.24969  
Iteration 4:   log conditional likelihood = -258.24969  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(11)            =     307.53
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -258.24969  Pseudo R2                =     0.4709
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.154941   .8437441     1.37   0.171    -.4987671    2.808649
p~e_asymmetry |  -3.026734   .9889052    -3.06   0.002    -4.964952   -1.088515
bc_mission_~f |   .1017903   .0426151     2.39   0.017     .0182661    .1853144
bc_mission_~n |   .0320299   .0588607     0.54   0.586     -.083335    .1473948
market_acce~f |  -1.518253   .8051568    -1.89   0.059    -3.096331    .0598257
retaliatory~f |  -.1151907   .1123713    -1.03   0.305    -.3354344    .1050529
    wto_share |   1.612565   1.022495     1.58   0.115    -.3914893    3.616618
all_democracy |    .015969   .5418343     0.03   0.976    -1.046007    1.077945
pta_depth_i~x |   .9492657   .1486654     6.39   0.000     .6578868    1.240645
number_part~s |   .0578841   .0219717     2.63   0.008     .0148204    .1009478
dv_cr_previ~a |    .611951     .32875     1.86   0.063    -.0323871    1.256289
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare bc_mission_diff   bc_mission_min  mar
> ket_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_dep
> th_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5794                                         min =          3
     Between = 0.9147                                         avg =       15.1
     Overall = 0.7231                                         max =         25

                                                F(10,21)          =      52.72
corr(u_i, Xb) = 0.3999                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.482225   .2885693     5.14   0.000      .882112    2.082338
bc_mission_~f |   .0293881   .0221697     1.33   0.199    -.0167162    .0754925
bc_mission_~n |   .0243027   .0329134     0.74   0.468    -.0441445    .0927498
market_acce~f |   -.520697   .2829911    -1.84   0.080    -1.109209    .0678153
retaliatory~f |    .005867   .0396841     0.15   0.884    -.0766605    .0883946
    wto_share |  -.3323673   .2723706    -1.22   0.236    -.8987929    .2340584
all_democracy |   -.092663   .1929439    -0.48   0.636    -.4939118    .3085857
pta_depth_i~x |   .4361833   .0533123     8.18   0.000     .3253142    .5470524
number_part~s |   .0207882   .0116652     1.78   0.089     -.003471    .0450474
dv_cr_previ~a |   .2681328   .1281517     2.09   0.049     .0016268    .5346387
        _cons |  -1.871836   .3610415    -5.18   0.000    -2.622663    -1.12101
--------------+----------------------------------------------------------------
      sigma_u |  .46566919
      sigma_e |  1.0095107
          rho |  .17544892   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  bc_mission_diff pta_dispute_asymmetry  bc_mission_min  marke
> t_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth
> _index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5207                                         min =          3
     Between = 0.8743                                         avg =       11.8
     Overall = 0.6322                                         max =         22

                                                F(10,21)          =      40.07
corr(u_i, Xb) = 0.3168                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
bc_mission_~f |     .04445   .0217751     2.04   0.054    -.0008338    .0897337
p~e_asymmetry |  -1.610506   .5976814    -2.69   0.014    -2.853453   -.3675597
bc_mission_~n |   .0333068    .030814     1.08   0.292    -.0307745    .0973881
market_acce~f |  -.8540075   .3623202    -2.36   0.028    -1.607494   -.1005214
retaliatory~f |  -.0590605   .0670564    -0.88   0.388    -.1985118    .0803909
    wto_share |   .9773429   .5057103     1.93   0.067    -.0743393    2.029025
all_democracy |  -.0049587   .2602542    -0.02   0.985     -.546187    .5362695
pta_depth_i~x |   .4514543   .0567973     7.95   0.000     .3333379    .5695706
number_part~s |   .0276222   .0150015     1.84   0.080     -.003575    .0588195
dv_cr_previ~a |   .2552022   .1494237     1.71   0.102    -.0555413    .5659458
        _cons |  -1.823438   .8374172    -2.18   0.041    -3.564942   -.0819334
--------------+----------------------------------------------------------------
      sigma_u |  .45202975
      sigma_e |  1.0870887
          rho |  .14741503   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare bc_mission_diff bc_mission_min pta_di
> spute_asymmetry    market_access_diff   retaliatory_capacity_diff  wto_share a
> ll_democracy   pta_depth_index  number_parties dv_cr_previouspta if year>1994,
>  fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5305                                         min =          3
     Between = 0.8716                                         avg =       11.8
     Overall = 0.6339                                         max =         22

                                                F(11,21)          =      46.37
corr(u_i, Xb) = 0.2895                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.000318   .3838512     2.61   0.016     .2020554     1.79858
bc_mission_~f |    .042261    .021583     1.96   0.064    -.0026232    .0871453
bc_mission_~n |   .0128441   .0340578     0.38   0.710    -.0579829    .0836711
p~e_asymmetry |  -1.386076   .5914327    -2.34   0.029    -2.616028   -.1561248
market_acce~f |  -.6697014   .3848617    -1.74   0.096    -1.470065    .1306622
retaliatory~f |  -.0540891   .0631449    -0.86   0.401     -.185406    .0772278
    wto_share |   .5307999   .5106914     1.04   0.310    -.5312411    1.592841
all_democracy |  -.0118903   .2507336    -0.05   0.963    -.5333193    .5095387
pta_depth_i~x |   .4304789   .0550477     7.82   0.000     .3160011    .5449568
number_part~s |   .0308372   .0152141     2.03   0.056    -.0008022    .0624767
dv_cr_previ~a |   .2658656   .1554199     1.71   0.102    -.0573478    .5890791
        _cons |   -2.20309   .8883862    -2.48   0.022     -4.05059   -.3555898
--------------+----------------------------------------------------------------
      sigma_u |  .45857358
      sigma_e |  1.0783314
          rho |  .15315092   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ** Table 6 **
. 
. xtreg  dv_cr_pca  dispute_10experienceshare   bc_gdp_diff  bc_gdp_min market_a
> ccess_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_in
> dex  number_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5659                                         min =          3
     Between = 0.9081                                         avg =       15.1
     Overall = 0.7124                                         max =         25

                                                F(10,21)          =      40.69
corr(u_i, Xb) = 0.4179                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   1.373544   .2342205     5.86   0.000     .8864554    1.860632
  bc_gdp_diff |   .1425056   .0744741     1.91   0.069    -.0123718     .297383
   bc_gdp_min |   .0476958   .0835478     0.57   0.574    -.1260514    .2214431
market_acce~f |  -.5459878   .2252059    -2.42   0.024    -1.014329   -.0776465
retaliatory~f |   .0133127   .0386424     0.34   0.734    -.0670485     .093674
    wto_share |  -.0501374    .225779    -0.22   0.826    -.5196706    .4193957
all_democracy |  -.1250105   .1902142    -0.66   0.518    -.5205826    .2705615
pta_depth_i~x |   .4408236   .0495746     8.89   0.000     .3377276    .5439195
number_part~s |   .0152849   .0119874     1.28   0.216    -.0096442    .0402141
dv_cr_previ~a |   .2772305   .1574861     1.76   0.093    -.0502798    .6047408
        _cons |   -2.28557   .6206769    -3.68   0.001    -3.576338   -.9948017
--------------+----------------------------------------------------------------
      sigma_u |  .49117778
      sigma_e |  1.0255861
          rho |  .18657402   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca    pta_dispute10_asymmetry bc_gdp_diff bc_gdp_min  market_acc
> ess_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_inde
> x  number_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5196                                         min =          3
     Between = 0.8868                                         avg =       11.4
     Overall = 0.6287                                         max =         21

                                                F(10,21)          =      33.26
corr(u_i, Xb) = 0.3795                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~0_asymmetry |  -1.351442    .485569    -2.78   0.011    -2.361238    -.341646
  bc_gdp_diff |   .1122751   .1280812     0.88   0.391    -.1540843    .3786345
   bc_gdp_min |  -.0548198   .1571426    -0.35   0.731    -.3816157    .2719761
market_acce~f |  -.8007859   .2962016    -2.70   0.013    -1.416771    -.184801
retaliatory~f |  -.0725957   .0600786    -1.21   0.240     -.197536    .0523446
    wto_share |    1.12102   .6305382     1.78   0.090    -.1902555    2.432296
all_democracy |  -.0164096   .2620669    -0.06   0.951    -.5614076    .5285884
pta_depth_i~x |   .4362669    .054254     8.04   0.000     .3234395    .5490944
number_part~s |   .0213418   .0129627     1.65   0.115    -.0056156    .0482992
dv_cr_previ~a |   .3240934   .1846431     1.76   0.094    -.0598929    .7080798
        _cons |    -1.3301   1.284852    -1.04   0.312    -4.002096    1.341897
--------------+----------------------------------------------------------------
      sigma_u |  .48531449
      sigma_e |  1.0824515
          rho |  .16737129   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  dispute_10experienceshare pta_dispute10_asymmetry  bc_gdp_di
> ff bc_gdp_min market_access_diff   retaliatory_capacity_diff  wto_share all_de
> mocracy   pta_depth_index  number_parties dv_cr_previouspta  if year>1994, fe 
> robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5250                                         min =          3
     Between = 0.8738                                         avg =       11.4
     Overall = 0.6300                                         max =         21

                                                F(11,21)          =      39.96
corr(u_i, Xb) = 0.3499                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   .6290726   .4245075     1.48   0.153     -.253739    1.511884
p~0_asymmetry |  -1.146628   .4967617    -2.31   0.031    -2.179701   -.1135556
  bc_gdp_diff |   .1329398   .1308185     1.02   0.321    -.1391122    .4049917
   bc_gdp_min |  -.0413794   .1578293    -0.26   0.796    -.3696034    .2868447
market_acce~f |  -.7084204   .3201285    -2.21   0.038    -1.374164   -.0426768
retaliatory~f |  -.0663376   .0578542    -1.15   0.264     -.186652    .0539767
    wto_share |   .7960784   .5961257     1.34   0.196    -.4436328     2.03579
all_democracy |  -.0252135   .2566634    -0.10   0.923    -.5589744    .5085473
pta_depth_i~x |   .4253791   .0509809     8.34   0.000     .3193586    .5313996
number_part~s |   .0242259   .0136557     1.77   0.091    -.0041726    .0526245
dv_cr_previ~a |   .3159234   .1901614     1.66   0.112    -.0795389    .7113857
        _cons |  -1.690795    1.38804    -1.22   0.237    -4.577382    1.195792
--------------+----------------------------------------------------------------
      sigma_u |  .48680487
      sigma_e |   1.078855
          rho |   .1691611   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare  bc_mission_diff   bc_mission_m
> in  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties  dv_cr_previouspta if year>1994, group(year) r
> obust
note: multiple positive outcomes within groups encountered.
note: 6 groups (53 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood =  -41.83019  
Iteration 1:   log pseudolikelihood = -39.062652  
Iteration 2:   log pseudolikelihood = -38.945026  
Iteration 3:   log pseudolikelihood = -38.944921  
Iteration 4:   log pseudolikelihood = -38.944921  

Conditional (fixed-effects) logistic regression         Number of obs =    279
                                                        Wald chi2(10) = 169.14
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -38.944921                       Pseudo R2     = 0.6444

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   5.996997   1.655995     3.62   0.000     2.751306    9.242688
bc_mission_~f |   .2541559   .0779275     3.26   0.001     .1014207     .406891
bc_mission_~n |   .0965546   .0997531     0.97   0.333    -.0989578    .2920671
market_acce~f |  -.1103948   1.098657    -0.10   0.920    -2.263723    2.042934
retaliatory~f |  -.2566925   .1609878    -1.59   0.111    -.5722228    .0588378
    wto_share |   .3775556   2.219636     0.17   0.865    -3.972852    4.727963
all_democracy |    .756384   .5549563     1.36   0.173    -.3313104    1.844078
pta_depth_i~x |   .9404794   .1741797     5.40   0.000     .5990934    1.281865
number_part~s |   .0877294   .0384187     2.28   0.022     .0124302    .1630286
dv_cr_previ~a |   .1312557   .4633269     0.28   0.777    -.7768482     1.03936
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare pta_dispute_asymmetry  bc_missi
> on_diff   bc_mission_min  market_access_diff   retaliatory_capacity_diff  wto_
> share all_democracy   pta_depth_index  number_parties  dv_cr_previouspta if ye
> ar>1994, group(year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (42 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood = -40.820297  
Iteration 1:   log pseudolikelihood = -37.886959  
Iteration 2:   log pseudolikelihood = -37.748335  
Iteration 3:   log pseudolikelihood = -37.748248  
Iteration 4:   log pseudolikelihood = -37.748248  

Conditional (fixed-effects) logistic regression         Number of obs =    218
                                                        Wald chi2(11) = 887.58
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -37.748248                       Pseudo R2     = 0.6066

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   5.405012   1.739146     3.11   0.002     1.996349    8.813675
p~e_asymmetry |  -3.723093   2.065446    -1.80   0.071    -7.771294    .3251071
bc_mission_~f |   .2665532   .0800974     3.33   0.001     .1095653    .4235412
bc_mission_~n |   .0860006   .0940289     0.91   0.360    -.0982926    .2702939
market_acce~f |  -.5180551   1.156345    -0.45   0.654     -2.78445     1.74834
retaliatory~f |   -.327417   .1433258    -2.28   0.022    -.6083305   -.0465036
    wto_share |   .9920265   2.070784     0.48   0.632    -3.066636    5.050689
all_democracy |   .8350279   .5799334     1.44   0.150    -.3016208    1.971677
pta_depth_i~x |   .9635081   .2012981     4.79   0.000     .5689711    1.358045
number_part~s |   .0997622   .0360726     2.77   0.006     .0290612    .1704632
dv_cr_previ~a |   .0598647   .4902746     0.12   0.903     -.901056    1.020785
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare bc_gdp_diff bc_gdp_min market_acce
> ss_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index
>   number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5590                                         min =          3
     Between = 0.8889                                         avg =       15.1
     Overall = 0.6846                                         max =         25

                                                F(10,21)          =     101.21
corr(u_i, Xb) = 0.2009                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.365226   .2414797     5.65   0.000     .8630418    1.867411
  bc_gdp_diff |   .1528226   .0678576     2.25   0.035      .011705    .2939402
   bc_gdp_min |   .0347698   .0828217     0.42   0.679    -.1374674    .2070069
market_acce~f |   -.401934   .2313707    -1.74   0.097    -.8830957    .0792278
retaliatory~f |   .0178682   .0362514     0.49   0.627    -.0575207    .0932571
    wto_share |  -.1519327   .2575708    -0.59   0.562    -.6875804     .383715
all_democracy |  -.0573121   .1579153    -0.36   0.720    -.3857149    .2710907
pta_depth_i~x |   .3427754   .0437711     7.83   0.000     .2517483    .4338024
number_part~s |   .0144189   .0111509     1.29   0.210    -.0087707    .0376086
dv_cr_previ~a |   .3052201   .1402332     2.18   0.041     .0135893    .5968509
        _cons |  -2.098117   .5929588    -3.54   0.002    -3.331242   -.8649919
--------------+----------------------------------------------------------------
      sigma_u |  .38335842
      sigma_e |  .92457936
          rho |  .14669806   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare pta_dispute_asymmetry bc_gdp_diff 
> bc_gdp_min   market_access_diff   retaliatory_capacity_diff  wto_share all_dem
> ocracy   pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe ro
> bust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5043                                         min =          3
     Between = 0.8073                                         avg =       11.8
     Overall = 0.5865                                         max =         22

                                                F(11,21)          =      38.29
corr(u_i, Xb) = 0.1585                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .5131312   .3621426     1.42   0.171    -.2399855    1.266248
p~e_asymmetry |  -1.142401   .5975582    -1.91   0.070    -2.385091    .1002896
  bc_gdp_diff |   .2214481    .095076     2.33   0.030     .0237268    .4191694
   bc_gdp_min |   .0500187   .1350985     0.37   0.715    -.2309339    .3309714
market_acce~f |  -.6357698   .3274558    -1.94   0.066    -1.316751    .0452118
retaliatory~f |  -.0294404    .061248    -0.48   0.636    -.1568127    .0979318
    wto_share |   .6455632   .5250645     1.23   0.232    -.4463682    1.737495
all_democracy |  -.0104801   .2164195    -0.05   0.962    -.4605491    .4395889
pta_depth_i~x |   .3487519   .0461891     7.55   0.000     .2526964    .4448075
number_part~s |   .0182446   .0138737     1.32   0.203    -.0106073    .0470964
dv_cr_previ~a |   .2349538   .1819079     1.29   0.211    -.1433443    .6132519
        _cons |  -2.034426   1.266755    -1.61   0.123    -4.668788     .599936
--------------+----------------------------------------------------------------
      sigma_u |   .3953939
      sigma_e |  .95107748
          rho |  .14736412   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ** Table 7 **
. 
. xtreg  dv_cr_index dispute_experienceshare bc_mission_diff     market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  nu
> mber_parties dv_cr_previouspta, fe robust

Fixed-effects (within) regression               Number of obs     =        450
Group variable: year                            Number of groups  =         38

R-squared:                                      Obs per group:
     Within  = 0.5257                                         min =          1
     Between = 0.9281                                         avg =       11.8
     Overall = 0.7006                                         max =         25

                                                F(9,37)           =      64.38
corr(u_i, Xb) = 0.2950                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 38 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |    1.16347   .2595729     4.48   0.000     .6375255    1.689415
bc_mission_~f |   .0345431   .0194973     1.77   0.085    -.0049622    .0740485
market_acce~f |  -.4989363   .2616069    -1.91   0.064    -1.029002    .0311297
retaliatory~f |  -.0029376   .0341068    -0.09   0.932    -.0720446    .0661694
    wto_share |  -.1882855   .2732125    -0.69   0.495    -.7418666    .3652955
all_democracy |  -.0085651   .1761153    -0.05   0.961    -.3654086    .3482783
pta_depth_i~x |   .5067874   .0554876     9.13   0.000     .3943588    .6192161
number_part~s |   .0242257   .0108964     2.22   0.032     .0021476    .0463038
dv_cr_previ~a |    .464085   .1364499     3.40   0.002     .1876112    .7405588
        _cons |   .2561912   .3260978     0.79   0.437    -.4045458    .9169282
--------------+----------------------------------------------------------------
      sigma_u |  .54760186
      sigma_e |  1.1993793
          rho |  .17249857   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_index pta_dispute_asymmetry bc_mission_diff     market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numb
> er_parties dv_cr_previouspta, fe robust

Fixed-effects (within) regression               Number of obs     =        349
Group variable: year                            Number of groups  =         38

R-squared:                                      Obs per group:
     Within  = 0.4786                                         min =          1
     Between = 0.9140                                         avg =        9.2
     Overall = 0.6683                                         max =         22

                                                F(9,37)           =      37.45
corr(u_i, Xb) = 0.3502                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 38 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -1.188631   .6006001    -1.98   0.055    -2.405562    .0283005
bc_mission_~f |   .0398588   .0204072     1.95   0.058    -.0014901    .0812077
market_acce~f |  -.6915572   .3227951    -2.14   0.039    -1.345602   -.0375122
retaliatory~f |   -.064646   .0518222    -1.25   0.220    -.1696478    .0403559
    wto_share |   .6887313   .5207973     1.32   0.194    -.3665042    1.743967
all_democracy |  -.0323784   .2257229    -0.14   0.887    -.4897364    .4249796
pta_depth_i~x |   .5269754   .0569172     9.26   0.000     .4116501    .6423007
number_part~s |   .0299976   .0127466     2.35   0.024     .0041706    .0558246
dv_cr_previ~a |    .385819   .1650696     2.34   0.025     .0513562    .7202819
        _cons |   .6336873     .68246     0.93   0.359    -.7491079    2.016483
--------------+----------------------------------------------------------------
      sigma_u |  .59286423
      sigma_e |  1.2584499
          rho |  .18163025   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ologit dv_cr_index dispute_experienceshare bc_mission_diff market_access_diff 
>   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number
> _parties dv_cr_previouspta i.year if year > 1994, vce(cluster year)

Iteration 0:   log pseudolikelihood = -592.97465  
Iteration 1:   log pseudolikelihood =  -417.0574  
Iteration 2:   log pseudolikelihood = -391.71448  
Iteration 3:   log pseudolikelihood =   -391.116  
Iteration 4:   log pseudolikelihood =  -391.1136  
Iteration 5:   log pseudolikelihood =  -391.1136  

Ordered logistic regression                             Number of obs =    332
                                                        Wald chi2(8)  =      .
                                                        Prob > chi2   =      .
Log pseudolikelihood = -391.1136                        Pseudo R2     = 0.3404

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.893751   .5089041     3.72   0.000     .8963174    2.891185
bc_mission_~f |   .0523383   .0534928     0.98   0.328    -.0525057    .1571823
market_acce~f |  -1.174202   .6682796    -1.76   0.079    -2.484006     .135602
retaliatory~f |   .0338409   .0714613     0.47   0.636    -.1062206    .1739024
    wto_share |  -.6711359   .5917305    -1.13   0.257    -1.830906    .4886344
all_democracy |   -.115792   .3940285    -0.29   0.769    -.8880737    .6564898
pta_depth_i~x |   .9086191   .1326614     6.85   0.000     .6486075    1.168631
number_part~s |   .0208761   .0178083     1.17   0.241    -.0140274    .0557797
dv_cr_previ~a |    .974083   .2554747     3.81   0.000     .4733619    1.474804
              |
         year |
        1996  |   -.101271   .1366744    -0.74   0.459    -.3691478    .1666059
        1997  |   .3734482   .1310296     2.85   0.004     .1166349    .6302614
        1998  |   .3407215   .1629709     2.09   0.037     .0213044    .6601386
        1999  |   -.247902   .1846505    -1.34   0.179    -.6098103    .1140062
        2000  |   .0085176   .2179955     0.04   0.969    -.4187456    .4357809
        2001  |   1.036131   .2087254     4.96   0.000     .6270368    1.445225
        2002  |   .4352227   .2322016     1.87   0.061     -.019884    .8903295
        2003  |  -.3018686   .1204909    -2.51   0.012    -.5380264   -.0657109
        2004  |   2.385102   .2934012     8.13   0.000     1.810046    2.960158
        2005  |   .5095001   .4377382     1.16   0.244    -.3484509    1.367451
        2006  |   .6068953   .3574075     1.70   0.089    -.0936105    1.307401
        2007  |   .8122138    .404351     2.01   0.045     .0197005    1.604727
        2008  |   .1600516   .3149382     0.51   0.611    -.4572158    .7773191
        2009  |   .7070336   .3111705     2.27   0.023     .0971505    1.316917
        2010  |    1.50708   .4666247     3.23   0.001     .5925121    2.421647
        2011  |   1.189614   .4127869     2.88   0.004     .3805662    1.998661
        2012  |   1.413282   .4939348     2.86   0.004     .4451879    2.381377
        2013  |   1.489007   .5016864     2.97   0.003     .5057194    2.472294
        2014  |   .3684668   .4603224     0.80   0.423    -.5337484    1.270682
        2015  |     .06129   .8865042     0.07   0.945    -1.676226    1.798806
        2016  |  -2.311373   .5415537    -4.27   0.000    -3.372798   -1.249947
--------------+----------------------------------------------------------------
        /cut1 |   .5409212   .6807067                     -.7932394    1.875082
        /cut2 |   3.269792   .6120869                      2.070123     4.46946
        /cut3 |    3.84872   .6062266                      2.660537    5.036902
        /cut4 |   5.551513   .6406057                      4.295949    6.807078
        /cut5 |   6.214196    .693021                        4.8559    7.572493
        /cut6 |   7.521428   .7580203                      6.035735     9.00712
        /cut7 |   13.54769   1.095755                      11.40005    15.69533
-------------------------------------------------------------------------------

. 
. ologit dv_cr_index pta_dispute_asymmetry bc_mission_diff market_access_diff   
> retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_p
> arties dv_cr_previouspta i.year if year > 1994, vce(cluster year)

Iteration 0:   log pseudolikelihood = -431.89222  
Iteration 1:   log pseudolikelihood =  -312.9341  
Iteration 2:   log pseudolikelihood = -295.12339  
Iteration 3:   log pseudolikelihood = -294.67956  
Iteration 4:   log pseudolikelihood = -294.67821  
Iteration 5:   log pseudolikelihood = -294.67821  

Ordered logistic regression                             Number of obs =    260
                                                        Wald chi2(8)  =      .
                                                        Prob > chi2   =      .
Log pseudolikelihood = -294.67821                       Pseudo R2     = 0.3177

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -2.574075   .8868481    -2.90   0.004    -4.312265   -.8358843
bc_mission_~f |   .0835244   .0460867     1.81   0.070    -.0068038    .1738526
market_acce~f |  -1.648065   .7803223    -2.11   0.035    -3.177468   -.1186611
retaliatory~f |  -.0707959   .1241056    -0.57   0.568    -.3140385    .1724467
    wto_share |   1.718588   .9862919     1.74   0.081    -.2145088    3.651684
all_democracy |   .0803849   .5263294     0.15   0.879    -.9512017    1.111972
pta_depth_i~x |   .9138441   .1476402     6.19   0.000     .6244747    1.203214
number_part~s |   .0363176   .0248756     1.46   0.144    -.0124377     .085073
dv_cr_previ~a |   1.020083   .3326258     3.07   0.002      .368148    1.672017
              |
         year |
        1996  |   .0131248   .2170546     0.06   0.952    -.4122943     .438544
        1997  |   .5656982   .3304046     1.71   0.087    -.0818829    1.213279
        1998  |   .7734585   .3225102     2.40   0.016     .1413501    1.405567
        1999  |  -.6026127   .4413881    -1.37   0.172    -1.467718    .2624921
        2000  |  -.3355976   .5538537    -0.61   0.545    -1.421131    .7499357
        2001  |   .5342684   .2768923     1.93   0.054    -.0084306    1.076967
        2002  |   .5600013   .2729299     2.05   0.040     .0250685    1.094934
        2003  |   .3374876   .2234935     1.51   0.131    -.1005515    .7755268
        2004  |   2.265167   .3612596     6.27   0.000     1.557111    2.973223
        2005  |   .4186711   .5242472     0.80   0.425    -.6088344    1.446177
        2006  |   .4847188   .4611337     1.05   0.293    -.4190866    1.388524
        2007  |   .6852147   .3492404     1.96   0.050     .0007162    1.369713
        2008  |   .3338197   .3837194     0.87   0.384    -.4182566    1.085896
        2009  |   .4866011    .406622     1.20   0.231    -.3103633    1.283566
        2010  |   1.510673   .5275206     2.86   0.004     .4767514    2.544594
        2011  |   1.103543   .4930396     2.24   0.025     .1372027    2.069883
        2012  |   1.151471   .5994361     1.92   0.055    -.0234026    2.326344
        2013  |   1.325108   .5434454     2.44   0.015      .259975    2.390242
        2014  |   .0103273    .436395     0.02   0.981    -.8449912    .8656457
        2015  |  -.2845001   .9958077    -0.29   0.775    -2.236247    1.667247
        2016  |  -2.204892   .6020249    -3.66   0.000    -3.384839   -1.024945
--------------+----------------------------------------------------------------
        /cut1 |   1.669789   1.324681                     -.9265371    4.266115
        /cut2 |   4.272175   1.364636                      1.597539    6.946812
        /cut3 |   4.761592   1.327938                      2.158882    7.364301
        /cut4 |   6.293849   1.317677                       3.71125    8.876449
        /cut5 |   6.908998   1.284583                      4.391262    9.426734
        /cut6 |   8.273956   1.330758                      5.665719    10.88219
        /cut7 |   14.45163   1.500939                      11.50985    17.39342
-------------------------------------------------------------------------------

. 
. ologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_mission_di
> ff market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   p
> ta_depth_index  number_parties dv_cr_previouspta i.year if year > 1994, vce(cl
> uster year)

Iteration 0:   log pseudolikelihood = -431.89222  
Iteration 1:   log pseudolikelihood = -311.97582  
Iteration 2:   log pseudolikelihood = -293.80843  
Iteration 3:   log pseudolikelihood = -293.34055  
Iteration 4:   log pseudolikelihood = -293.33898  
Iteration 5:   log pseudolikelihood = -293.33898  

Ordered logistic regression                             Number of obs =    260
                                                        Wald chi2(9)  =      .
                                                        Prob > chi2   =      .
Log pseudolikelihood = -293.33898                       Pseudo R2     = 0.3208

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.308124   .8666054     1.51   0.131    -.3903917    3.006639
p~e_asymmetry |  -2.072332    .929842    -2.23   0.026    -3.894789   -.2498751
bc_mission_~f |   .0898125   .0465363     1.93   0.054    -.0013969    .1810219
market_acce~f |  -1.344787   .9030066    -1.49   0.136    -3.114647    .4250737
retaliatory~f |  -.0656301   .1161481    -0.57   0.572    -.2932762    .1620161
    wto_share |   1.118459   .9300787     1.20   0.229    -.7044615     2.94138
all_democracy |    .078085   .5000112     0.16   0.876    -.9019189    1.058089
pta_depth_i~x |   .8901329   .1486106     5.99   0.000     .5988615    1.181404
number_part~s |   .0416784   .0261143     1.60   0.110    -.0095048    .0928616
dv_cr_previ~a |   1.013112   .3353702     3.02   0.003      .355798    1.670425
              |
         year |
        1996  |   .0859081   .2038426     0.42   0.673    -.3136161    .4854323
        1997  |   .5778136   .3262343     1.77   0.077    -.0615938    1.217221
        1998  |   .8643358   .3162879     2.73   0.006     .2444228    1.484249
        1999  |  -.6395527   .4358067    -1.47   0.142    -1.493718    .2146127
        2000  |  -.3111446   .5396184    -0.58   0.564    -1.368777     .746488
        2001  |   .5755443   .2517021     2.29   0.022     .0822173    1.068871
        2002  |   .6351526   .2734577     2.32   0.020     .0991855     1.17112
        2003  |   .3816099   .2256074     1.69   0.091    -.0605725    .8237923
        2004  |   2.435192   .3462772     7.03   0.000     1.756502    3.113883
        2005  |   .4240707   .4853439     0.87   0.382     -.527186    1.375327
        2006  |   .4640984   .4284585     1.08   0.279    -.3756648    1.303862
        2007  |   .6448459   .3346924     1.93   0.054    -.0111391    1.300831
        2008  |   .3039611    .371728     0.82   0.414    -.4246124    1.032535
        2009  |   .6401114   .3939466     1.62   0.104    -.1320099    1.412233
        2010  |   1.409367   .5256522     2.68   0.007     .3791074    2.439626
        2011  |   1.076391   .4754915     2.26   0.024      .144445    2.008337
        2012  |   1.178005    .561567     2.10   0.036      .077354    2.278656
        2013  |   1.336544   .5121748     2.61   0.009     .3327001    2.340388
        2014  |   .0375247   .3894901     0.10   0.923    -.7258619    .8009112
        2015  |  -.2196926   .9487781    -0.23   0.817    -2.079264    1.639878
        2016  |  -2.299428   .6302226    -3.65   0.000    -3.534641   -1.064214
--------------+----------------------------------------------------------------
        /cut1 |   2.441157   1.614008                     -.7222416    5.604555
        /cut2 |   4.957305   1.665769                      1.692459    8.222152
        /cut3 |   5.434101    1.64333                      2.213233     8.65497
        /cut4 |   6.967967   1.648065                      3.737818    10.19812
        /cut5 |   7.598248   1.616636                        4.4297     10.7668
        /cut6 |   9.007218   1.665207                      5.743472    12.27096
        /cut7 |   15.22458    1.75933                      11.77636     18.6728
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_index dispute_experienceshare bc_mission_diff     market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  nu
> mber_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5341                                         min =          3
     Between = 0.9107                                         avg =       15.1
     Overall = 0.6694                                         max =         25

                                                F(9,21)           =      81.92
corr(u_i, Xb) = 0.2076                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.522369   .3085698     4.93   0.000     .8806627    2.164075
bc_mission_~f |   .0296146   .0245268     1.21   0.241    -.0213916    .0806208
market_acce~f |   -.518261   .3244134    -1.60   0.125    -1.192916    .1563937
retaliatory~f |   .0046275   .0475104     0.10   0.923    -.0941757    .1034307
    wto_share |  -.2146447   .3823374    -0.56   0.580    -1.009759    .5804694
all_democracy |  -.0186337   .2106345    -0.09   0.930    -.4566721    .4194046
pta_depth_i~x |   .4342097   .0565214     7.68   0.000      .316667    .5517524
number_part~s |    .018251   .0127264     1.43   0.166    -.0082149    .0447169
dv_cr_previ~a |   .4667803   .1600923     2.92   0.008     .1338501    .7997105
        _cons |   .4833753   .4212115     1.15   0.264    -.3925819    1.359333
--------------+----------------------------------------------------------------
      sigma_u |  .42878821
      sigma_e |  1.2003002
          rho |  .11317347   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_index  bc_mission_diff pta_dispute_asymmetry    market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numb
> er_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4792                                         min =          3
     Between = 0.8546                                         avg =       11.8
     Overall = 0.5761                                         max =         22

                                                F(9,21)           =      39.36
corr(u_i, Xb) = 0.1590                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
bc_mission_~f |   .0422973   .0234265     1.81   0.085    -.0064208    .0910153
p~e_asymmetry |  -1.984382   .6650793    -2.98   0.007    -3.367491   -.6012742
market_acce~f |  -.8981732   .3982205    -2.26   0.035    -1.726318   -.0700284
retaliatory~f |   -.067334   .0739544    -0.91   0.373    -.2211307    .0864627
    wto_share |   1.160514    .743905     1.56   0.134    -.3865212    2.707549
all_democracy |   -.032265   .2762656    -0.12   0.908    -.6067908    .5422608
pta_depth_i~x |   .4580573   .0595996     7.69   0.000     .3341132    .5820014
number_part~s |   .0265193    .015341     1.73   0.099    -.0053841    .0584227
dv_cr_previ~a |   .3904645   .1875473     2.08   0.050     .0004385    .7804904
        _cons |   .8114631   .9118549     0.89   0.384    -1.084843    2.707769
--------------+----------------------------------------------------------------
      sigma_u |  .42811163
      sigma_e |  1.2451004
          rho |  .10572471   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_index dispute_experienceshare bc_mission_diff pta_dispute_asymmet
> ry    market_access_diff   retaliatory_capacity_diff  wto_share all_democracy 
>   pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4829                                         min =          3
     Between = 0.8473                                         avg =       11.8
     Overall = 0.5757                                         max =         22

                                                F(10,21)          =      39.31
corr(u_i, Xb) = 0.1315                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .6438547   .4509418     1.43   0.168    -.2939301     1.58164
bc_mission_~f |   .0446209   .0225321     1.98   0.061    -.0022371     .091479
p~e_asymmetry |  -1.773126   .6778757    -2.62   0.016    -3.182845   -.3634059
market_acce~f |   -.773021   .4437171    -1.74   0.096    -1.695781    .1497393
retaliatory~f |  -.0651416   .0706938    -0.92   0.367    -.2121575    .0818742
    wto_share |   .7925171   .7090958     1.12   0.276    -.6821283    2.267162
all_democracy |  -.0347599   .2697668    -0.13   0.899    -.5957706    .5262508
pta_depth_i~x |   .4438273   .0609909     7.28   0.000     .3169897    .5706648
number_part~s |    .029578   .0162022     1.83   0.082    -.0041164    .0632724
dv_cr_previ~a |   .3879501   .1905284     2.04   0.055    -.0082755    .7841757
        _cons |   .5622688   1.016044     0.55   0.586    -1.550711    2.675248
--------------+----------------------------------------------------------------
      sigma_u |  .43747183
      sigma_e |  1.2433093
          rho |  .11016672   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. * Figure 10 (based on Table 7)
. 
. xtreg  dv_cr_index  bc_mission_diff pta_dispute_asymmetry    market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numb
> er_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4792                                         min =          3
     Between = 0.8546                                         avg =       11.8
     Overall = 0.5761                                         max =         22

                                                F(9,21)           =      39.36
corr(u_i, Xb) = 0.1590                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
bc_mission_~f |   .0422973   .0234265     1.81   0.085    -.0064208    .0910153
p~e_asymmetry |  -1.984382   .6650793    -2.98   0.007    -3.367491   -.6012742
market_acce~f |  -.8981732   .3982205    -2.26   0.035    -1.726318   -.0700284
retaliatory~f |   -.067334   .0739544    -0.91   0.373    -.2211307    .0864627
    wto_share |   1.160514    .743905     1.56   0.134    -.3865212    2.707549
all_democracy |   -.032265   .2762656    -0.12   0.908    -.6067908    .5422608
pta_depth_i~x |   .4580573   .0595996     7.69   0.000     .3341132    .5820014
number_part~s |   .0265193    .015341     1.73   0.099    -.0053841    .0584227
dv_cr_previ~a |   .3904645   .1875473     2.08   0.050     .0004385    .7804904
        _cons |   .8114631   .9118549     0.89   0.384    -1.084843    2.707769
--------------+----------------------------------------------------------------
      sigma_u |  .42811163
      sigma_e |  1.2451004
          rho |  .10572471   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. sort pta_dispute_asymmetry

. quietly by pta_dispute_asymmetry:  gen newdahist = cond(_N==1,0,_n)

. gen dnewhisto=.
(550 missing values generated)

. replace dnewhisto=pta_dispute_asymmetry if newdahist==0 | newdahist==1
(199 real changes made)

.  
. margins, at(pta_dispute_asymmetry = (0 0.1 0.2 0.3 0.4 0.5)) saving(da_margins
> , replace)

Predictive margins                                         Number of obs = 260
Model VCE: Robust

Expression: Linear prediction, predict()
1._at: pta_dispute_as~y =  0
2._at: pta_dispute_as~y = .1
3._at: pta_dispute_as~y = .2
4._at: pta_dispute_as~y = .3
5._at: pta_dispute_as~y = .4
6._at: pta_dispute_as~y = .5

------------------------------------------------------------------------------
             |            Delta-method
             |     Margin   std. err.      z    P>|z|     [95% conf. interval]
-------------+----------------------------------------------------------------
         _at |
          1  |   4.730521   .0940186    50.31   0.000     4.546248    4.914794
          2  |   4.532083   .0275106   164.74   0.000     4.478163    4.586003
          3  |   4.333645   .0389973   111.13   0.000     4.257211    4.410078
          4  |   4.135206   .1055052    39.19   0.000      3.92842    4.341993
          5  |   3.936768   .1720132    22.89   0.000     3.599629    4.273908
          6  |    3.73833   .2385211    15.67   0.000     3.270837    4.205823
------------------------------------------------------------------------------

. 
. combomarginsplot da_margins, labels("Fewer Than WTO DSU" "More Than WTO DSU") 
>  file1opts(pstyle(p1))   plot1opt(lcolor(navy))   ci1opt(color(navy%20))  lplo
> t1(mfcolor(white)) recast(line) recastci(rarea)  xtitle(Multilateral Trade Dis
> pute Asymmetry) graphregion(color(white)) ytitle(Complainant Rights) title("")
>  addplot(hist dnewhisto, blcolor(black) fcolor(black) discrete yaxis(2) yscale
> (alt lstyle(none)  lcolor( ) axis(2)) ylabel(0 " " 20000 " " 40000 " " 60000 "
>  ", labcolor() axis(2) tlcolor() tlwidth(0) labsize(small) tl(0)) ytitle(" ", 
> axis(2)) legend(off))

  Variables that uniquely identify margins: pta_dispute_asymmetry

. graph save fig10_right, replace
file fig10_right.gph saved

. 
. 
. xtreg  dv_cr_index  dispute_experienceshare bc_mission_diff market_access_diff
>    retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index number
> _parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5341                                         min =          3
     Between = 0.9107                                         avg =       15.1
     Overall = 0.6694                                         max =         25

                                                F(9,21)           =      81.92
corr(u_i, Xb) = 0.2076                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.522369   .3085698     4.93   0.000     .8806627    2.164075
bc_mission_~f |   .0296146   .0245268     1.21   0.241    -.0213916    .0806208
market_acce~f |   -.518261   .3244134    -1.60   0.125    -1.192916    .1563937
retaliatory~f |   .0046275   .0475104     0.10   0.923    -.0941757    .1034307
    wto_share |  -.2146447   .3823374    -0.56   0.580    -1.009759    .5804694
all_democracy |  -.0186337   .2106345    -0.09   0.930    -.4566721    .4194046
pta_depth_i~x |   .4342097   .0565214     7.68   0.000      .316667    .5517524
number_part~s |    .018251   .0127264     1.43   0.166    -.0082149    .0447169
dv_cr_previ~a |   .4667803   .1600923     2.92   0.008     .1338501    .7997105
        _cons |   .4833753   .4212115     1.15   0.264    -.3925819    1.359333
--------------+----------------------------------------------------------------
      sigma_u |  .42878821
      sigma_e |  1.2003002
          rho |  .11317347   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. sort dispute_experienceshare

. quietly by dispute_experienceshare:  gen dupdexshare = cond(_N==1,0,_n)

. gen exshisto=.
(550 missing values generated)

. replace exshisto=dispute_experienceshare if dupdexshare==0 | dupdexshare==1
(33 real changes made)

. 
. margins, at(dispute_experienceshare = (0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
> )) saving(exs_margins, replace)

Predictive margins                                         Number of obs = 332
Model VCE: Robust

Expression: Linear prediction, predict()
1._at:  dispute_experi~e =  0
2._at:  dispute_experi~e = .1
3._at:  dispute_experi~e = .2
4._at:  dispute_experi~e = .3
5._at:  dispute_experi~e = .4
6._at:  dispute_experi~e = .5
7._at:  dispute_experi~e = .6
8._at:  dispute_experi~e = .7
9._at:  dispute_experi~e = .8
10._at: dispute_experi~e = .9
11._at: dispute_experi~e =  1

------------------------------------------------------------------------------
             |            Delta-method
             |     Margin   std. err.      z    P>|z|     [95% conf. interval]
-------------+----------------------------------------------------------------
         _at |
          1  |   2.844428   .2012559    14.13   0.000     2.449973    3.238882
          2  |   2.996665   .1703989    17.59   0.000     2.662689     3.33064
          3  |   3.148901   .1395419    22.57   0.000     2.875404    3.422399
          4  |   3.301138   .1086849    30.37   0.000      3.08812    3.514157
          5  |   3.453375   .0778279    44.37   0.000     3.300835    3.605915
          6  |   3.605612    .046971    76.76   0.000     3.513551    3.697673
          7  |   3.757849    .016114   233.20   0.000     3.726266    3.789432
          8  |   3.910086    .014743   265.22   0.000      3.88119    3.938982
          9  |   4.062323      .0456    89.09   0.000     3.972948    4.151697
         10  |    4.21456   .0764569    55.12   0.000     4.064707    4.364412
         11  |   4.366796   .1073139    40.69   0.000     4.156465    4.577128
------------------------------------------------------------------------------

. 
. combomarginsplot exs_margins, labels("Fewer Than WTO DSU" "More Than WTO DSU")
>   file1opts(pstyle(p1))   plot1opt(lcolor(navy))   ci1opt(color(navy%20))  lpl
> ot1(mfcolor(white)) recast(line) recastci(rarea)  xtitle(Share of PTA Parties 
> with Previous Experience in Multilateral Disputes) graphregion(color(white)) y
> title(Complainant Rights) title("") addplot(hist exshisto, blcolor(black) fcol
> or(black) discrete yaxis(2) yscale(alt lstyle(none)  lcolor( ) axis(2)) ylabel
> (0 " " 20000 " " 40000 " " 60000 " ", labcolor() axis(2) tlcolor() tlwidth(0) 
> labsize(small) tl(0)) ytitle(" ", axis(2)) legend(off))

  Variables that uniquely identify margins: dispute_experienceshare

. graph save fig_10left, replace
file fig_10left.gph saved

. 
. 
. gr combine fig_10left.gph fig10_right.gph , col(2) ycommon iscale(.70) ysize(8
> ) xsiz(16) graphregion(margin(zero))

. graph save fig10, replace
file fig10.gph saved

. graph export "fig10.eps", as(eps) replace
file fig10.eps saved as EPS format

. 
. ** Table 8 **
. 
. xtreg  dv_cr_pca dispute_experienceshare    bc_gdp_diff market_access_diff   r
> etaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_pa
> rties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5795                                         min =          3
     Between = 0.9203                                         avg =       15.1
     Overall = 0.7228                                         max =         25

                                                F(9,21)           =      64.07
corr(u_i, Xb) = 0.4230                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.633553   .2587272     6.31   0.000     1.095501    2.171606
  bc_gdp_diff |   .1187877   .0702514     1.69   0.106    -.0273082    .2648835
market_acce~f |  -.4700509   .2213816    -2.12   0.046    -.9304392   -.0096626
retaliatory~f |   .0083529   .0395942     0.21   0.835    -.0739877    .0906934
    wto_share |   -.290831   .2628337    -1.11   0.281    -.8374236    .2557617
all_democracy |  -.0758444   .1893383    -0.40   0.693    -.4695949    .3179061
pta_depth_i~x |    .433381   .0541894     8.00   0.000      .320688     .546074
number_part~s |   .0153944   .0125574     1.23   0.234    -.0107202     .041509
dv_cr_previ~a |   .2752528   .1381956     1.99   0.060    -.0121408    .5626464
        _cons |  -1.932666   .3452741    -5.60   0.000    -2.650703   -1.214629
--------------+----------------------------------------------------------------
      sigma_u |  .47059762
      sigma_e |  1.0077633
          rho |  .17902454   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare pta_dispute_asymmetry   bc_gdp_diff m
> arket_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_d
> epth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5311                                         min =          3
     Between = 0.8738                                         avg =       11.8
     Overall = 0.6334                                         max =         22

                                                F(10,21)          =      40.87
corr(u_i, Xb) = 0.3044                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.096698   .3843641     2.85   0.010     .2973695    1.896027
p~e_asymmetry |   -1.28739   .5639187    -2.28   0.033    -2.460124   -.1146573
  bc_gdp_diff |   .1708608    .071174     2.40   0.026     .0228464    .3188753
market_acce~f |  -.5354963   .3413497    -1.57   0.132    -1.245372    .1743791
retaliatory~f |   -.046974   .0610213    -0.77   0.450    -.1738746    .0799267
    wto_share |   .5878702   .5340485     1.10   0.283    -.5227445    1.698485
all_democracy |   .0358394   .2527337     0.14   0.889    -.4897491     .561428
pta_depth_i~x |   .4228116   .0586518     7.21   0.000     .3008385    .5447847
number_part~s |   .0234773   .0157571     1.49   0.151    -.0092914    .0562459
dv_cr_previ~a |    .270153   .1716354     1.57   0.130    -.0867823    .6270883
        _cons |  -2.314105   .8883944    -2.60   0.017    -4.161622   -.4665874
--------------+----------------------------------------------------------------
      sigma_u |  .46824151
      sigma_e |  1.0752376
          rho |  .15940989   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_gdp_diff
>   market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pt
> a_depth_index  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -290.26648  
Iteration 1:   log conditional likelihood = -260.10634  
Iteration 2:   log conditional likelihood = -259.61713  
Iteration 3:   log conditional likelihood = -259.61599  
Iteration 4:   log conditional likelihood = -259.61599  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     325.79
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -259.61599  Pseudo R2                =     0.4681
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.254764   .8115514     1.55   0.122     -.335848    2.845375
p~e_asymmetry |  -2.823191   .9678221    -2.92   0.004    -4.720087   -.9262943
  bc_gdp_diff |   .3560864   .1805942     1.97   0.049     .0021283    .7100444
market_acce~f |   -1.31655   .8115636    -1.62   0.105    -2.907186    .2740854
retaliatory~f |  -.0948348   .0869517    -1.09   0.275    -.2652569    .0755873
    wto_share |   1.653268    1.08425     1.52   0.127     -.471822    3.778358
all_democracy |   .1915053   .5387511     0.36   0.722    -.8644274    1.247438
pta_depth_i~x |   .9398916   .1550576     6.06   0.000     .6359842    1.243799
number_part~s |   .0416851   .0201442     2.07   0.039     .0022031     .081167
dv_cr_previ~a |   .5276866   .3580186     1.47   0.141    -.1740169     1.22939
-------------------------------------------------------------------------------

. 
. xtreg  dv_weight_pca dispute_experienceshare    bc_mission_diff market_access_
> diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  n
> umber_parties dv_weight_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5237                                         min =          3
     Between = 0.9159                                         avg =       15.1
     Overall = 0.6728                                         max =         25

                                                F(9,21)           =      67.68
corr(u_i, Xb) = 0.3547                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
dv_weight_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.336639    .250999     5.33   0.000     .8146578     1.85862
bc_mission_~f |   .0265376   .0244645     1.08   0.290    -.0243392    .0774144
market_acce~f |  -.6281099   .2819896    -2.23   0.037    -1.214539   -.0416805
retaliatory~f |   .0148232   .0474541     0.31   0.758     -.083863    .1135094
    wto_share |  -.2785597   .3119974    -0.89   0.382    -.9273938    .3702743
all_democracy |   .0488413   .1988116     0.25   0.808    -.3646101    .4622927
pta_depth_i~x |   .4219304   .0518202     8.14   0.000     .3141645    .5296963
number_part~s |   .0115594   .0131183     0.88   0.388    -.0157217    .0388405
dv_weight_~ta |   .2309864   .1054264     2.19   0.040     .0117403    .4502326
        _cons |  -1.988365   .4784596    -4.16   0.000    -2.983376   -.9933541
--------------+----------------------------------------------------------------
      sigma_u |  .42066431
      sigma_e |  1.0922104
          rho |  .12917788   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_weight_pca dispute_experienceshare pta_dispute_asymmetry   bc_missio
> n_diff market_access_diff   retaliatory_capacity_diff  wto_share all_democracy
>    pta_depth_index  number_parties dv_weight_previouspta if year>1994, fe robu
> st

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4799                                         min =          3
     Between = 0.8726                                         avg =       11.8
     Overall = 0.5864                                         max =         22

                                                F(10,21)          =      40.41
corr(u_i, Xb) = 0.2512                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
dv_weight_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .9482736   .4014865     2.36   0.028     .1133367     1.78321
p~e_asymmetry |  -1.323137   .6822509    -1.94   0.066    -2.741955    .0956815
bc_mission_~f |   .0440347   .0219854     2.00   0.058    -.0016864    .0897558
market_acce~f |   -.741135   .4163039    -1.78   0.090    -1.606886    .1246163
retaliatory~f |  -.0388435   .0712127    -0.55   0.591    -.1869384    .1092513
    wto_share |   .5528721   .6432804     0.86   0.400    -.7849027    1.890647
all_democracy |   .0662839   .2560934     0.26   0.798    -.4662915    .5988594
pta_depth_i~x |   .4235374   .0550026     7.70   0.000     .3091533    .5379215
number_part~s |   .0227891   .0174644     1.30   0.206    -.0135301    .0591084
dv_weight_~ta |    .183584   .1314912     1.40   0.177    -.0898669    .4570349
        _cons |  -2.238204   1.061511    -2.11   0.047    -4.445737    -.030671
--------------+----------------------------------------------------------------
      sigma_u |   .4088822
      sigma_e |   1.160195
          rho |  .11048146   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_weight dispute_experienceshare pta_dispute_asymmetry bc_mission_di
> ff  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties dv_weight_previouspta if year > 1994, group(ye
> ar)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -430.70161  
Iteration 1:   log conditional likelihood = -385.62401  
Iteration 2:   log conditional likelihood = -384.77949  
Iteration 3:   log conditional likelihood = -384.77718  
Iteration 4:   log conditional likelihood = -384.77718  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1753
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     255.28
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -384.77718  Pseudo R2                =     0.4452
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_weight | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.267343   .7978847     1.59   0.112    -.2964825    2.831168
p~e_asymmetry |   -2.87666   1.129819    -2.55   0.011    -5.091065   -.6622542
bc_mission_~f |   .0783467   .0466163     1.68   0.093    -.0130195    .1697129
market_acce~f |  -1.554342   .8044026    -1.93   0.053    -3.130942    .0222585
retaliatory~f |  -.0797197   .1270637    -0.63   0.530      -.32876    .1693206
    wto_share |   1.536041   1.112106     1.38   0.167    -.6436473    3.715729
all_democracy |   .0551184   .5700399     0.10   0.923    -1.062139    1.172376
pta_depth_i~x |   .9546643   .0888534    10.74   0.000     .7805149    1.128814
number_part~s |   .0532262   .0273666     1.94   0.052    -.0004113    .1068637
dv_weight_~ta |   .3081992    .231435     1.33   0.183    -.1454051    .7618036
-------------------------------------------------------------------------------

. 
. xtreg  dv_weight_pca dispute_experienceshare    bc_gdp_diff market_access_diff
>    retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numbe
> r_parties dv_weight_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5246                                         min =          3
     Between = 0.9197                                         avg =       15.1
     Overall = 0.6756                                         max =         25

                                                F(9,21)           =      75.20
corr(u_i, Xb) = 0.3731                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
dv_weight_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.378088   .2443665     5.64   0.000     .8699006    1.886276
  bc_gdp_diff |   .1227274   .0665494     1.84   0.079    -.0156695    .2611244
market_acce~f |  -.5617249   .2313884    -2.43   0.024    -1.042923   -.0805263
retaliatory~f |    .015665   .0455159     0.34   0.734    -.0789906    .1103206
    wto_share |  -.2729258    .300125    -0.91   0.373      -.89707    .3512184
all_democracy |   .0788962   .1959256     0.40   0.691    -.3285533    .4863457
pta_depth_i~x |   .4171072   .0528908     7.89   0.000     .3071147    .5270997
number_part~s |   .0075378   .0134845     0.56   0.582    -.0205047    .0355804
dv_weight_~ta |   .2298982   .1080599     2.13   0.045     .0051754    .4546211
        _cons |  -2.061445   .4672872    -4.41   0.000    -3.033222   -1.089668
--------------+----------------------------------------------------------------
      sigma_u |  .41630403
      sigma_e |  1.0912327
          rho |   .1270503   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_weight_pca dispute_experienceshare pta_dispute_asymmetry   bc_gdp_di
> ff market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   p
> ta_depth_index  number_parties dv_weight_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4815                                         min =          3
     Between = 0.8762                                         avg =       11.8
     Overall = 0.5891                                         max =         22

                                                F(10,21)          =      38.51
corr(u_i, Xb) = 0.2733                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
dv_weight_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .9775256    .396931     2.46   0.023     .1520623    1.802989
p~e_asymmetry |  -1.161943   .6645262    -1.75   0.095    -2.543901    .2200149
  bc_gdp_diff |   .1959638   .0672764     2.91   0.008     .0560547    .3358728
market_acce~f |   -.598009   .3792011    -1.58   0.130    -1.386601    .1905829
retaliatory~f |  -.0323701   .0683146    -0.47   0.641    -.1744381    .1096978
    wto_share |   .5752682   .6344205     0.91   0.375    -.7440814    1.894618
all_democracy |   .1239005   .2572988     0.48   0.635    -.4111817    .6589826
pta_depth_i~x |   .4155929   .0573799     7.24   0.000     .2962649     .534921
number_part~s |   .0150854   .0174892     0.86   0.398    -.0212854    .0514561
dv_weight_~ta |   .1799391   .1340083     1.34   0.194    -.0987464    .4586246
        _cons |  -2.340432   1.021157    -2.29   0.032    -4.464044   -.2168205
--------------+----------------------------------------------------------------
      sigma_u |  .41094023
      sigma_e |  1.1584254
          rho |  .11177488   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_weight dispute_experienceshare pta_dispute_asymmetry bc_gdp_diff  
> market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_
> depth_index  number_parties dv_weight_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -427.68253  
Iteration 1:   log conditional likelihood = -382.33578  
Iteration 2:   log conditional likelihood = -381.63968  
Iteration 3:   log conditional likelihood = -381.63796  
Iteration 4:   log conditional likelihood = -381.63796  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1753
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     234.16
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -381.63796  Pseudo R2                =     0.4498
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_weight | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.291959   .7960816     1.62   0.105    -.2683324     2.85225
p~e_asymmetry |  -2.629506    1.07498    -2.45   0.014    -4.736427   -.5225839
  bc_gdp_diff |   .4429218   .1678635     2.64   0.008     .1139155    .7719282
market_acce~f |  -1.425094   .8069263    -1.77   0.077     -3.00664    .1564528
retaliatory~f |   -.083136   .1095029    -0.76   0.448    -.2977576    .1314856
    wto_share |   1.537409   1.125949     1.37   0.172    -.6694094    3.744228
all_democracy |   .2880865   .5244822     0.55   0.583    -.7398797    1.316053
pta_depth_i~x |    .949636   .0945776    10.04   0.000     .7642673    1.135005
number_part~s |   .0376601   .0234711     1.60   0.109    -.0083423    .0836626
dv_weight_~ta |   .2426557   .2374318     1.02   0.307    -.2227021    .7080134
-------------------------------------------------------------------------------

. 
. ** Table 9 **
. 
. gen d_ex_dummy=0

. replace d_ex_dummy=1 if dispute_experienceshare==1 & dispute_experienceshare!=
> .
(219 real changes made)

. 
. xtreg  dv_cr_pca d_ex_dummy    bc_mission_diff market_access_diff   retaliator
> y_capacity_diff  wto_share all_democracy   pta_depth_index  number_parties dv_
> cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5777                                         min =          3
     Between = 0.9186                                         avg =       15.1
     Overall = 0.7176                                         max =         25

                                                F(9,21)           =      41.46
corr(u_i, Xb) = 0.3911                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   1.099482   .1819779     6.04   0.000     .7210378    1.477925
bc_mission_~f |   .0417273   .0193441     2.16   0.043      .001499    .0819556
market_acce~f |  -.3247802   .2699693    -1.20   0.242    -.8862121    .2366517
retaliatory~f |   .0172011    .033511     0.51   0.613    -.0524888    .0868909
    wto_share |   .0692686   .2133844     0.32   0.749    -.3744885    .5130257
all_democracy |  -.0729317   .1768957    -0.41   0.684    -.4408064     .294943
pta_depth_i~x |   .4176539   .0517829     8.07   0.000     .3099654    .5253423
number_part~s |   .0198123   .0123342     1.61   0.123     -.005838    .0454626
dv_cr_previ~a |   .3127474   .1345662     2.32   0.030     .0329016    .5925932
        _cons |  -1.877105   .3384122    -5.55   0.000    -2.580872   -1.173339
--------------+----------------------------------------------------------------
      sigma_u |  .46683201
      sigma_e |  1.0099027
          rho |  .17605903   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index d_ex_dummy  bc_mission_diff  market_access_diff   retalia
> tory_capacity_diff  wto_share all_democracy   pta_depth_index  number_parties 
> dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -424.80394  
Iteration 1:   log conditional likelihood = -370.35543  
Iteration 2:   log conditional likelihood = -369.56987  
Iteration 3:   log conditional likelihood = -369.56816  
Iteration 4:   log conditional likelihood = -369.56816  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1677
                                         N. of observations       =        319
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     270.56
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -369.56816  Pseudo R2                =     0.4722
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   1.808072   .4069865     4.44   0.000     1.010393    2.605751
bc_mission_~f |   .0999187   .0434395     2.30   0.021     .0147788    .1850585
market_acce~f |   -.752482   .5696792    -1.32   0.187    -1.869033    .3640687
retaliatory~f |   .0288631   .0701105     0.41   0.681    -.1085509     .166277
    wto_share |   .0922607   .5581344     0.17   0.869    -1.001663    1.186184
all_democracy |  -.0721301   .4527688    -0.16   0.873    -.9595406    .8152803
pta_depth_i~x |   .8960538   .1441334     6.22   0.000     .6135577     1.17855
number_part~s |   .0276893   .0155498     1.78   0.075    -.0027878    .0581663
dv_cr_previ~a |   .8478332   .3330616     2.55   0.011     .1950444    1.500622
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca d_ex_dummy pta_dispute_asymmetry   bc_mission_diff market_acc
> ess_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_inde
> x  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5395                                         min =          3
     Between = 0.8786                                         avg =       11.8
     Overall = 0.6384                                         max =         22

                                                F(10,21)          =      55.75
corr(u_i, Xb) = 0.2832                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   .6877978   .2075994     3.31   0.003     .2560711    1.119524
p~e_asymmetry |  -1.321733   .5450554    -2.42   0.024    -2.455238   -.1882281
bc_mission_~f |   .0438483   .0197148     2.22   0.037     .0028491    .0848475
market_acce~f |  -.6570461   .3469405    -1.89   0.072    -1.378548    .0644561
retaliatory~f |  -.0456826   .0606526    -0.75   0.460    -.1718165    .0804514
    wto_share |   .4157392   .5470264     0.76   0.456    -.7218645    1.553343
all_democracy |  -.0259664   .2455173    -0.11   0.917    -.5365477    .4846148
pta_depth_i~x |   .4247078   .0560338     7.58   0.000     .3081791    .5412365
number_part~s |   .0290576    .015483     1.88   0.075     -.003141    .0612562
dv_cr_previ~a |   .2757067    .167287     1.65   0.114    -.0721856    .6235991
        _cons |  -1.637378   .7740516    -2.12   0.047    -3.247107   -.0276499
--------------+----------------------------------------------------------------
      sigma_u |  .45365948
      sigma_e |  1.0655446
          rho |  .15345072   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index d_ex_dummy pta_dispute_asymmetry bc_mission_diff  market_
> access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_i
> ndex  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -287.63516  
Iteration 1:   log conditional likelihood = -254.34122  
Iteration 2:   log conditional likelihood = -253.92467  
Iteration 3:   log conditional likelihood = -253.92414  
Iteration 4:   log conditional likelihood = -253.92414  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     243.32
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -253.92414  Pseudo R2                =     0.4798
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   1.085276   .4634462     2.34   0.019      .176938    1.993614
p~e_asymmetry |  -2.783728   .9229432    -3.02   0.003    -4.592664    -.974793
bc_mission_~f |   .1101237   .0395641     2.78   0.005     .0325796    .1876679
market_acce~f |  -1.419603   .7245283    -1.96   0.050    -2.839652    .0004468
retaliatory~f |  -.0975421   .1029675    -0.95   0.343    -.2993547    .1042705
    wto_share |   1.370861   1.096071     1.25   0.211    -.7773986    3.519121
all_democracy |  -.0170869   .5414315    -0.03   0.975    -1.078273    1.044099
pta_depth_i~x |    .947442   .1457855     6.50   0.000     .6617077    1.233176
number_part~s |   .0530841   .0204118     2.60   0.009     .0130777    .0930905
dv_cr_previ~a |   .6414448   .3423427     1.87   0.061    -.0295346    1.312424
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare pta_disputeasymmetrycategorical   bc_
> mission_diff market_access_diff   retaliatory_capacity_diff  wto_share all_dem
> ocracy   pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe ro
> bust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5211                                         min =          3
     Between = 0.8753                                         avg =       11.8
     Overall = 0.6243                                         max =         22

                                                F(10,21)          =      37.62
corr(u_i, Xb) = 0.3142                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.293008   .4068782     3.18   0.005     .4468586    2.139158
pta_dispute~l |   .1984461   .1559833     1.27   0.217    -.1259389    .5228312
bc_mission_~f |   .0408105   .0200421     2.04   0.055    -.0008694    .0824904
market_acce~f |  -.5354369   .3866276    -1.38   0.181    -1.339473    .2685993
retaliatory~f |  -.0280411   .0541819    -0.52   0.610    -.1407187    .0846364
    wto_share |   .4699972   .5898966     0.80   0.435    -.7567599    1.696754
all_democracy |   .0129775   .2409499     0.05   0.958    -.4881054    .5140603
pta_depth_i~x |   .4315969   .0493749     8.74   0.000     .3289161    .5342776
number_part~s |   .0278323   .0146559     1.90   0.071    -.0026462    .0583109
dv_cr_previ~a |    .277883   .1607447     1.73   0.099    -.0564038    .6121698
        _cons |  -2.548641   .8846663    -2.88   0.009    -4.388406   -.7088771
--------------+----------------------------------------------------------------
      sigma_u |  .47479143
      sigma_e |  1.0866818
          rho |  .16029741   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_disputeasymmetrycategorical b
> c_mission_diff  market_access_diff   retaliatory_capacity_diff  wto_share all_
> democracy   pta_depth_index  number_parties dv_cr_previouspta if year > 1994, 
> group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood =  -294.7306  
Iteration 1:   log conditional likelihood = -266.46021  
Iteration 2:   log conditional likelihood = -265.89848  
Iteration 3:   log conditional likelihood = -265.89613  
Iteration 4:   log conditional likelihood = -265.89613  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     245.65
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -265.89613  Pseudo R2                =     0.4553
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.914026   .8066282     2.37   0.018     .3330636    3.494988
pta_dispute~l |   .0436698   .2728457     0.16   0.873    -.4910981    .5784376
bc_mission_~f |   .0864626   .0379579     2.28   0.023     .0120665    .1608587
market_acce~f |  -1.213861   .8511103    -1.43   0.154    -2.882006    .4542846
retaliatory~f |  -.0420208   .0962035    -0.44   0.662    -.2305761    .1465345
    wto_share |   1.344801    1.13211     1.19   0.235    -.8740929    3.563696
all_democracy |  -.0430734   .5177645    -0.08   0.934    -1.057873    .9717263
pta_depth_i~x |   .9420343   .1367889     6.89   0.000     .6739329    1.210136
number_part~s |   .0474698   .0213291     2.23   0.026     .0056656     .089274
dv_cr_previ~a |   .5917097   .3146886     1.88   0.060    -.0250686    1.208488
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca d_ex_dummy pta_disputeasymmetrycategorical   bc_mission_diff 
> market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_
> depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5319                                         min =          3
     Between = 0.8825                                         avg =       11.8
     Overall = 0.6320                                         max =         22

                                                F(10,21)          =      38.11
corr(u_i, Xb) = 0.3070                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   .7829149   .2151884     3.64   0.002      .335406    1.230424
pta_dispute~l |   .1849904   .1572892     1.18   0.253    -.1421104    .5120912
bc_mission_~f |   .0461335   .0191747     2.41   0.025     .0062575    .0860094
market_acce~f |  -.5495901   .3416932    -1.61   0.123     -1.26018    .1609999
retaliatory~f |   -.021847   .0512743    -0.43   0.674    -.1284778    .0847837
    wto_share |   .3357667   .5956291     0.56   0.579    -.9029119    1.574445
all_democracy |  -.0021982   .2376662    -0.01   0.993    -.4964521    .4920557
pta_depth_i~x |   .4271014   .0485274     8.80   0.000     .3261831    .5280197
number_part~s |   .0264193   .0143241     1.84   0.079    -.0033693     .056208
dv_cr_previ~a |   .2790497   .1544132     1.81   0.085    -.0420702    .6001696
        _cons |  -1.833678   .7498125    -2.45   0.023    -3.392998   -.2743572
--------------+----------------------------------------------------------------
      sigma_u |  .46385476
      sigma_e |  1.0743806
          rho |  .15711452   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index d_ex_dummy pta_disputeasymmetrycategorical bc_mission_dif
> f  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   p
> ta_depth_index  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -290.71827  
Iteration 1:   log conditional likelihood = -260.06428  
Iteration 2:   log conditional likelihood = -259.62815  
Iteration 3:   log conditional likelihood = -259.62702  
Iteration 4:   log conditional likelihood = -259.62702  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     231.41
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -259.62702  Pseudo R2                =     0.4681
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
   d_ex_dummy |   1.356836   .4592926     2.95   0.003     .4566389    2.257033
pta_dispute~l |   .0395816   .2785895     0.14   0.887    -.5064438    .5856071
bc_mission_~f |   .1087901   .0382814     2.84   0.004     .0337599    .1838202
market_acce~f |  -1.205206   .7277951    -1.66   0.098    -2.631659    .2212458
retaliatory~f |  -.0290691    .089119    -0.33   0.744    -.2037391    .1456009
    wto_share |   1.057256   1.134087     0.93   0.351    -1.165514    3.280025
all_democracy |  -.0748864   .5197053    -0.14   0.885     -1.09349    .9437173
pta_depth_i~x |   .9402965   .1352683     6.95   0.000     .6751756    1.205417
number_part~s |   .0420283   .0186691     2.25   0.024     .0054376     .078619
dv_cr_previ~a |   .6237041   .3241394     1.92   0.054    -.0115974    1.259006
-------------------------------------------------------------------------------

. 
. ** Table 10 **
. 
. 
. xtreg  dv_cr_pca  dispute_10experienceshare   bc_mission_diff   market_access_
> diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  n
> umber_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5635                                         min =          3
     Between = 0.9074                                         avg =       15.1
     Overall = 0.7107                                         max =         25

                                                F(9,21)           =      44.06
corr(u_i, Xb) = 0.4044                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   1.327334   .2337799     5.68   0.000     .8411624    1.813506
bc_mission_~f |   .0196199   .0224516     0.87   0.392    -.0270708    .0663107
market_acce~f |  -.5678572   .2907788    -1.95   0.064    -1.172565    .0368503
retaliatory~f |    .013463   .0384459     0.35   0.730    -.0664896    .0934156
    wto_share |   -.011595   .2358213    -0.05   0.961    -.5020122    .4788221
all_democracy |  -.1464295   .1954238    -0.75   0.462    -.5528356    .2599765
pta_depth_i~x |   .4536565   .0499262     9.09   0.000     .3498293    .5574836
number_part~s |   .0193647   .0116058     1.67   0.110    -.0047708    .0435002
dv_cr_previ~a |   .2969144   .1416381     2.10   0.048      .002362    .5914669
        _cons |  -1.891248   .3616767    -5.23   0.000    -2.643396     -1.1391
--------------+----------------------------------------------------------------
      sigma_u |  .48675097
      sigma_e |     1.0267
          rho |  .18351608   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca    pta_dispute10_asymmetry bc_mission_diff   market_access_di
> ff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  num
> ber_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5164                                         min =          3
     Between = 0.8794                                         avg =       11.4
     Overall = 0.6231                                         max =         21

                                                F(9,21)           =      37.94
corr(u_i, Xb) = 0.3714                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~0_asymmetry |  -1.291134   .4712256    -2.74   0.012    -2.271101   -.3111669
bc_mission_~f |   .0271554   .0205848     1.32   0.201     -.015653    .0699637
market_acce~f |  -.9005665     .34198    -2.63   0.016    -1.611753   -.1893802
retaliatory~f |   -.066124   .0561609    -1.18   0.252     -.182917    .0506691
    wto_share |   1.084558   .6366575     1.70   0.103    -.2394437     2.40856
all_democracy |  -.0641917   .2613483    -0.25   0.808    -.6076954    .4793119
pta_depth_i~x |   .4358947   .0555345     7.85   0.000     .3204044     .551385
number_part~s |   .0258076    .011937     2.16   0.042     .0009833    .0506319
dv_cr_previ~a |   .3049284   .1431182     2.13   0.045     .0072978    .6025589
        _cons |  -1.623138   .8377978    -1.94   0.066    -3.365434    .1191579
--------------+----------------------------------------------------------------
      sigma_u |  .49409226
      sigma_e |  1.0835397
          rho |  .17214051   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  dispute_10experienceshare pta_dispute10_asymmetry  bc_missio
> n_diff  market_access_diff   retaliatory_capacity_diff  wto_share all_democrac
> y   pta_depth_index  number_parties dv_cr_previouspta  if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        250
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5220                                         min =          3
     Between = 0.8687                                         avg =       11.4
     Overall = 0.6253                                         max =         21

                                                F(10,21)          =      43.47
corr(u_i, Xb) = 0.3432                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_10e~e |   .6390624   .4305106     1.48   0.153    -.2562334    1.534358
p~0_asymmetry |  -1.071356   .4821755    -2.22   0.037    -2.074095   -.0686169
bc_mission_~f |   .0309866   .0198957     1.56   0.134    -.0103887    .0723619
market_acce~f |  -.8145985   .3643105    -2.24   0.036    -1.572224   -.0569733
retaliatory~f |  -.0611266    .054486    -1.12   0.275    -.1744364    .0521832
    wto_share |   .7561213    .601549     1.26   0.223    -.4948685    2.007111
all_democracy |   -.075647   .2553599    -0.30   0.770    -.6066971    .4554031
pta_depth_i~x |   .4278097   .0533283     8.02   0.000     .3169074    .5387121
number_part~s |    .029263   .0126827     2.31   0.031     .0028878    .0556382
dv_cr_previ~a |   .3012261   .1476932     2.04   0.054    -.0059187    .6083709
        _cons |  -1.897104   .9541983    -1.99   0.060    -3.881468    .0872605
--------------+----------------------------------------------------------------
      sigma_u |  .49126422
      sigma_e |  1.0797746
          rho |  .17149751   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. 
. clogit  dv_comp_forum  dispute_experienceshare  bc_mission_diff     market_acc
> ess_diff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_inde
> x  number_parties  dv_cr_previouspta if year>1994, group(year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (53 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood =  -42.49714  
Iteration 1:   log pseudolikelihood = -39.742223  
Iteration 2:   log pseudolikelihood = -39.458521  
Iteration 3:   log pseudolikelihood = -39.438693  
Iteration 4:   log pseudolikelihood = -39.437939  
Iteration 5:   log pseudolikelihood = -39.437936  

Conditional (fixed-effects) logistic regression         Number of obs =    279
                                                        Wald chi2(9)  =  58.56
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -39.437936                       Pseudo R2     = 0.6399

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   6.465134    1.72848     3.74   0.000     3.077374    9.852893
bc_mission_~f |   .2082081    .077821     2.68   0.007     .0556817    .3607346
market_acce~f |  -.0605029   1.074809    -0.06   0.955     -2.16709    2.046084
retaliatory~f |  -.2284766   .1461866    -1.56   0.118    -.5149971     .058044
    wto_share |   .3642171   1.915435     0.19   0.849    -3.389966      4.1184
all_democracy |   .7863022   .5708303     1.38   0.168    -.3325046    1.905109
pta_depth_i~x |   .9398713   .1832988     5.13   0.000     .5806122     1.29913
number_part~s |   .0765748   .0469072     1.63   0.103    -.0153616    .1685113
dv_cr_previ~a |   .1635642   .4606894     0.36   0.723    -.7393704    1.066499
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare pta_dispute_asymmetry  bc_missi
> on_diff     market_access_diff   retaliatory_capacity_diff  wto_share all_demo
> cracy   pta_depth_index  number_parties  dv_cr_previouspta if year>1994, group
> (year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (42 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood = -41.307256  
Iteration 1:   log pseudolikelihood = -38.291169  
Iteration 2:   log pseudolikelihood = -38.143772  
Iteration 3:   log pseudolikelihood = -38.142055  
Iteration 4:   log pseudolikelihood = -38.142054  

Conditional (fixed-effects) logistic regression         Number of obs =    218
                                                        Wald chi2(10) = 417.77
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -38.142054                       Pseudo R2     = 0.6025

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   5.747686   1.882526     3.05   0.002     2.058003    9.437368
p~e_asymmetry |  -3.868962   2.070345    -1.87   0.062    -7.926763    .1888392
bc_mission_~f |   .2235821   .0746783     2.99   0.003     .0772152    .3699489
market_acce~f |  -.4786545   1.118756    -0.43   0.669    -2.671375    1.714066
retaliatory~f |  -.3031047   .1253505    -2.42   0.016    -.5487873   -.0574221
    wto_share |   1.114338   1.948914     0.57   0.567    -2.705464    4.934139
all_democracy |   .8664198     .59578     1.45   0.146    -.3012874    2.034127
pta_depth_i~x |   .9547314   .2128247     4.49   0.000     .5376026     1.37186
number_part~s |    .091312    .037353     2.44   0.015     .0181015    .1645225
dv_cr_previ~a |   .1016908   .4862465     0.21   0.834    -.8513348    1.054716
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare  bc_gdp_diff    market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  nu
> mber_parties  dv_cr_previouspta if year>1994, group(year) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (53 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood = -46.016261  
Iteration 1:   log pseudolikelihood = -43.207486  
Iteration 2:   log pseudolikelihood = -43.092951  
Iteration 3:   log pseudolikelihood = -43.091784  
Iteration 4:   log pseudolikelihood = -43.091779  
Iteration 5:   log pseudolikelihood = -43.091779  

Conditional (fixed-effects) logistic regression         Number of obs =    279
                                                        Wald chi2(9)  = 134.43
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -43.091779                       Pseudo R2     = 0.6065

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   4.901282   1.337197     3.67   0.000     2.280423     7.52214
  bc_gdp_diff |   .0060006    .437846     0.01   0.989    -.8521617     .864163
market_acce~f |   .4252988   1.073028     0.40   0.692    -1.677797    2.528395
retaliatory~f |  -.1219189   .1391812    -0.88   0.381    -.3947091    .1508712
    wto_share |    .980522   1.799136     0.54   0.586     -2.54572    4.506764
all_democracy |   .7469449   .5537951     1.35   0.177    -.3384736    1.832363
pta_depth_i~x |   .8626688   .1537133     5.61   0.000     .5613962    1.163941
number_part~s |    .069503   .0420605     1.65   0.098     -.012934      .15194
dv_cr_previ~a |   .3421499   .4297104     0.80   0.426     -.500067    1.184367
-------------------------------------------------------------------------------

. 
. clogit  dv_comp_forum  dispute_experienceshare pta_dispute_asymmetry  bc_gdp_d
> iff     market_access_diff   retaliatory_capacity_diff  wto_share all_democrac
> y   pta_depth_index  number_parties  dv_cr_previouspta if year>1994, group(yea
> r) robust
note: multiple positive outcomes within groups encountered.
note: 6 groups (42 obs) omitted because of all positive or
      all negative outcomes.

Iteration 0:   log pseudolikelihood = -44.951376  
Iteration 1:   log pseudolikelihood = -42.095069  
Iteration 2:   log pseudolikelihood = -41.978706  
Iteration 3:   log pseudolikelihood =   -41.9784  
Iteration 4:   log pseudolikelihood =   -41.9784  

Conditional (fixed-effects) logistic regression         Number of obs =    218
                                                        Wald chi2(10) = 234.72
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -41.9784                         Pseudo R2     = 0.5626

                                    (Std. err. adjusted for clustering on year)
-------------------------------------------------------------------------------
              |               Robust
dv_comp_forum | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   3.972608   1.544647     2.57   0.010     .9451553     7.00006
p~e_asymmetry |  -3.208801   1.506841    -2.13   0.033    -6.162156   -.2554457
  bc_gdp_diff |  -.0760457   .4650466    -0.16   0.870    -.9875203    .8354289
market_acce~f |   .0819342   1.149539     0.07   0.943     -2.17112    2.334989
retaliatory~f |  -.1872215   .1379409    -1.36   0.175    -.4575807    .0831378
    wto_share |   1.560663   1.828399     0.85   0.393    -2.022934     5.14426
all_democracy |   .7839876   .5737185     1.37   0.172      -.34048    1.908455
pta_depth_i~x |   .8742427   .1718863     5.09   0.000     .5373517    1.211134
number_part~s |   .0820415    .041737     1.97   0.049     .0002384    .1638445
dv_cr_previ~a |   .3155988    .477702     0.66   0.509    -.6206799    1.251878
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare bc_gdp_diff  market_access_diff   
> retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  number_p
> arties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5588                                         min =          3
     Between = 0.8907                                         avg =       15.1
     Overall = 0.6852                                         max =         25

                                                F(9,21)           =     114.36
corr(u_i, Xb) = 0.1911                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.372944   .2409305     5.70   0.000     .8719017    1.873986
  bc_gdp_diff |    .134597   .0538453     2.50   0.021     .0226197    .2465744
market_acce~f |    -.38984   .2331689    -1.67   0.109    -.8747413    .0950612
retaliatory~f |   .0165543   .0357715     0.46   0.648    -.0578367    .0909453
    wto_share |  -.1361022   .2642262    -0.52   0.612    -.6855907    .4133862
all_democracy |  -.0511958   .1612116    -0.32   0.754    -.3864536    .2840621
pta_depth_i~x |   .3483881    .045867     7.60   0.000     .2530024    .4437739
number_part~s |   .0145601   .0111655     1.30   0.206    -.0086598      .03778
dv_cr_previ~a |   .3160242   .1233954     2.56   0.018     .0594093     .572639
        _cons |  -1.868085   .3440574    -5.43   0.000    -2.583592   -1.152579
--------------+----------------------------------------------------------------
      sigma_u |  .37970568
      sigma_e |  .92333681
          rho |   .1446498   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare pta_dispute_asymmetry bc_gdp_diff 
>     market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
> pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5037                                         min =          3
     Between = 0.8122                                         avg =       11.8
     Overall = 0.5878                                         max =         22

                                                F(10,21)          =      32.28
corr(u_i, Xb) = 0.1492                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .5038152   .3577731     1.41   0.174    -.2402146    1.247845
p~e_asymmetry |  -1.175732   .5568268    -2.11   0.047    -2.333717   -.0177476
  bc_gdp_diff |   .1908745    .051745     3.69   0.001     .0832649    .2984841
market_acce~f |  -.6173933   .3248824    -1.90   0.071    -1.293023    .0582367
retaliatory~f |  -.0334415   .0562461    -0.59   0.558    -.1504116    .0835286
    wto_share |   .6568288   .5343579     1.23   0.233    -.4544293    1.768087
all_democracy |  -.0071987   .2216274    -0.03   0.974    -.4680982    .4537009
pta_depth_i~x |   .3568432   .0492135     7.25   0.000     .2544982    .4591883
number_part~s |   .0187555    .013579     1.38   0.182    -.0094834    .0469945
dv_cr_previ~a |    .255671   .1453596     1.76   0.093    -.0466207    .5579628
        _cons |  -1.688413   .7966193    -2.12   0.046    -3.345073   -.0317522
--------------+----------------------------------------------------------------
      sigma_u |   .3894362
      sigma_e |  .94950385
          rho |  .14399729   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare bc_mission_diff market_access_diff
>    retaliatory_capacity_diff  wto_share all_democracy   pta_depth_index  numbe
> r_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5548                                         min =          3
     Between = 0.8846                                         avg =       15.1
     Overall = 0.6797                                         max =         25

                                                F(9,21)           =      79.40
corr(u_i, Xb) = 0.1758                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.325013   .2417617     5.48   0.000     .8222414    1.827784
bc_mission_~f |   .0196536   .0181358     1.08   0.291    -.0180618    .0573691
market_acce~f |  -.4235356    .277912    -1.52   0.142    -1.001485     .154414
retaliatory~f |   .0197674   .0350671     0.56   0.579    -.0531586    .0926933
    wto_share |  -.1199809   .2693339    -0.45   0.661    -.6800914    .4401296
all_democracy |  -.0883597   .1626558    -0.54   0.593    -.4266208    .2499015
pta_depth_i~x |   .3541223   .0448717     7.89   0.000     .2608065     .447438
number_part~s |    .019321   .0110268     1.75   0.094    -.0036104    .0422524
dv_cr_previ~a |    .323336   .1219238     2.65   0.015     .0697816    .5768905
        _cons |   -1.77572    .339193    -5.24   0.000     -2.48111   -1.070329
--------------+----------------------------------------------------------------
      sigma_u |  .38914381
      sigma_e |  .92745003
          rho |  .14969695   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg  pca_noforum  dispute_experienceshare pta_dispute_asymmetry bc_mission_d
> iff     market_access_diff   retaliatory_capacity_diff  wto_share all_democrac
> y   pta_depth_index  number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.4943                                         min =          3
     Between = 0.8011                                         avg =       11.8
     Overall = 0.5776                                         max =         22

                                                F(10,21)          =      37.30
corr(u_i, Xb) = 0.1289                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  pca_noforum | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .4499768   .3592624     1.25   0.224    -.2971502    1.197104
p~e_asymmetry |  -1.322818   .5699675    -2.32   0.030     -2.50813   -.1375054
bc_mission_~f |   .0265546   .0176717     1.50   0.148    -.0101957    .0633049
market_acce~f |  -.6986534   .3607112    -1.94   0.066    -1.448793    .0514867
retaliatory~f |  -.0304879   .0569054    -0.54   0.598    -.1488293    .0878534
    wto_share |   .6281008     .53835     1.17   0.256    -.4914594    1.747661
all_democracy |  -.0717067   .2209559    -0.32   0.749    -.5312095    .3877962
pta_depth_i~x |   .3656956   .0469935     7.78   0.000     .2679673    .4634238
number_part~s |   .0258057   .0137088     1.88   0.074    -.0027033    .0543146
dv_cr_previ~a |   .2697982   .1461834     1.85   0.079    -.0342069    .5738032
        _cons |  -1.488039    .807612    -1.84   0.080     -3.16756    .1914825
--------------+----------------------------------------------------------------
      sigma_u |  .39909772
      sigma_e |  .95851805
          rho |  .14774925   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ** Table 11 **
. 
. feologit dv_cr_index dispute_experienceshare bc_mission_diff market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy     number_parties dv_c
> r_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -726.31291  
Iteration 1:   log conditional likelihood =   -683.676  
Iteration 2:   log conditional likelihood = -683.62218  
Iteration 3:   log conditional likelihood = -683.62217  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       2313
                                         N. of observations       =        454
                                         N. of panel units        =         35
                                         Wald chi2(8)             =     248.28
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -683.62217  Pseudo R2                =     0.2803
                                   (Std. err. adjusted for 35 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   2.122019   .3844787     5.52   0.000     1.368454    2.875583
bc_mission_~f |   .0747533   .0273333     2.73   0.006     .0211811    .1283255
market_acce~f |  -.3554158   .4535881    -0.78   0.433    -1.244432    .5336006
retaliatory~f |   .0711493   .0592932     1.20   0.230    -.0450632    .1873618
    wto_share |   .3293387   .4642563     0.71   0.478    -.5805868    1.239264
all_democracy |   .3100031   .3013891     1.03   0.304    -.2807088    .9007149
number_part~s |   .0254054   .0184397     1.38   0.168    -.0107359    .0615466
dv_cr_previ~a |   1.294169   .2322633     5.57   0.000     .8389412    1.749396
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index  pta_dispute_asymmetry   bc_mission_diff market_access_di
> ff   retaliatory_capacity_diff  wto_share all_democracy     number_parties dv_
> cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -551.55682  
Iteration 1:   log conditional likelihood = -530.98189  
Iteration 2:   log conditional likelihood =  -530.8562  
Iteration 3:   log conditional likelihood = -530.85615  
Iteration 4:   log conditional likelihood = -530.85615  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1681
                                         N. of observations       =        348
                                         N. of panel units        =         32
                                         Wald chi2(8)             =     117.66
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -530.85615  Pseudo R2                =     0.2188
                                   (Std. err. adjusted for 32 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -3.166671   .9613977    -3.29   0.001    -5.050976   -1.282366
bc_mission_~f |   .0771727   .0302659     2.55   0.011     .0178527    .1364927
market_acce~f |  -.5840085   .5073066    -1.15   0.250    -1.578311    .4102941
retaliatory~f |   -.021403   .0781867    -0.27   0.784    -.1746462    .1318402
    wto_share |    2.37996   .5636379     4.22   0.000      1.27525     3.48467
all_democracy |   .4480828   .3051527     1.47   0.142    -.1500054    1.046171
number_part~s |   .0361148   .0234897     1.54   0.124    -.0099241    .0821538
dv_cr_previ~a |   1.313567   .2766903     4.75   0.000     .7712644     1.85587
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry   bc_missio
> n_diff market_access_diff   retaliatory_capacity_diff  wto_share all_democracy
>      number_parties dv_cr_previouspta, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -548.13704  
Iteration 1:   log conditional likelihood = -526.90235  
Iteration 2:   log conditional likelihood = -526.74213  
Iteration 3:   log conditional likelihood = -526.74203  
Iteration 4:   log conditional likelihood = -526.74203  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1681
                                         N. of observations       =        348
                                         N. of panel units        =         32
                                         Wald chi2(9)             =     121.35
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -526.74203  Pseudo R2                =     0.2248
                                   (Std. err. adjusted for 32 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.136099   .6868129     1.65   0.098    -.2100292    2.482228
p~e_asymmetry |  -2.651461   1.056346    -2.51   0.012    -4.721862   -.5810601
bc_mission_~f |   .0864049    .031874     2.71   0.007      .023933    .1488768
market_acce~f |  -.4298079    .534447    -0.80   0.421    -1.477305     .617689
retaliatory~f |    -.01197    .078743    -0.15   0.879    -.1663035    .1423634
    wto_share |   1.697604   .6557931     2.59   0.010     .4122736    2.982935
all_democracy |   .4257936   .3100377     1.37   0.170     -.181869    1.033456
number_part~s |   .0424826   .0243084     1.75   0.081     -.005161    .0901262
dv_cr_previ~a |   1.299611    .279734     4.65   0.000     .7513428     1.84788
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare pta_dispute_asymmetry   bc_mission_di
> ff market_access_diff   retaliatory_capacity_diff  wto_share all_democracy    
>  number_parties dv_cr_previouspta, fe robust

Fixed-effects (within) regression               Number of obs     =        367
Group variable: year                            Number of groups  =         38

R-squared:                                      Obs per group:
     Within  = 0.2745                                         min =          1
     Between = 0.8923                                         avg =        9.7
     Overall = 0.5601                                         max =         23

                                                F(9,37)           =      15.50
corr(u_i, Xb) = 0.4980                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 38 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |    1.34792   .3979116     3.39   0.002     .5416749    2.154166
p~e_asymmetry |  -1.524786   .6495605    -2.35   0.024    -2.840921   -.2086514
bc_mission_~f |   .0369073   .0178572     2.07   0.046     .0007252    .0730893
market_acce~f |  -.1465983   .3084444    -0.48   0.637    -.7715661    .4783695
retaliatory~f |  -.0007772    .052268    -0.01   0.988    -.1066821    .1051278
    wto_share |   .8821827   .3986805     2.21   0.033     .0743793    1.689986
all_democracy |     .22344   .2129868     1.05   0.301    -.2081122    .6549923
number_part~s |   .0320895   .0141934     2.26   0.030     .0033309    .0608481
dv_cr_previ~a |   .7518606   .1577778     4.77   0.000     .4321725    1.071549
        _cons |  -2.948928   .6559537    -4.50   0.000    -4.278016   -1.619839
--------------+----------------------------------------------------------------
      sigma_u |   .6851753
      sigma_e |  1.2827223
          rho |  .22198597   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare   bc_mission_diff market_access_d
> iff   retaliatory_capacity_diff  wto_share all_democracy     number_parties dv
> _cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -536.86974  
Iteration 1:   log conditional likelihood = -500.06702  
Iteration 2:   log conditional likelihood =  -500.0062  
Iteration 3:   log conditional likelihood =  -500.0062  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1762
                                         N. of observations       =        334
                                         N. of panel units        =         20
                                         Wald chi2(8)             =     314.98
                                         Prob > chi2              =     0.0000
Log conditional likelihood =  -500.0062  Pseudo R2                =     0.3172
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   2.562917   .4651402     5.51   0.000     1.651259    3.474575
bc_mission_~f |   .0665874   .0356565     1.87   0.062     -.003298    .1364727
market_acce~f |  -.4773185   .5153519    -0.93   0.354     -1.48739    .5327527
retaliatory~f |   .0564336   .0786385     0.72   0.473     -.097695    .2105621
    wto_share |    .181456   .6167772     0.29   0.769    -1.027405    1.390317
all_democracy |   .1831578   .3759988     0.49   0.626    -.5537863    .9201019
number_part~s |   .0046602   .0163469     0.29   0.776     -.027379    .0366995
dv_cr_previ~a |   1.281298   .2671329     4.80   0.000     .7577272    1.804869
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index pta_dispute_asymmetry   bc_mission_diff market_access_dif
> f   retaliatory_capacity_diff  wto_share all_democracy     number_parties dv_c
> r_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -400.47934  
Iteration 1:   log conditional likelihood =  -386.0326  
Iteration 2:   log conditional likelihood = -385.93521  
Iteration 3:   log conditional likelihood = -385.93516  
Iteration 4:   log conditional likelihood = -385.93516  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1289
                                         N. of observations       =        262
                                         N. of panel units        =         20
                                         Wald chi2(8)             =     130.91
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -385.93516  Pseudo R2                =     0.2547
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |   -3.75685   1.163622    -3.23   0.001    -6.037506   -1.476193
bc_mission_~f |   .0787977   .0355452     2.22   0.027     .0091304    .1484651
market_acce~f |  -.9803275   .6261917    -1.57   0.117    -2.207641    .2469858
retaliatory~f |  -.0366992   .1064719    -0.34   0.730    -.2453803     .171982
    wto_share |   3.056593   .9150624     3.34   0.001     1.263103    4.850082
all_democracy |   .3743522   .4346088     0.86   0.389    -.4774655     1.22617
number_part~s |   .0126163   .0203331     0.62   0.535    -.0272358    .0524685
dv_cr_previ~a |   1.319289   .2976818     4.43   0.000     .7358434    1.902735
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_mission_
> diff  market_access_diff   retaliatory_capacity_diff  wto_share all_democracy 
>     number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -396.02689  
Iteration 1:   log conditional likelihood = -380.30141  
Iteration 2:   log conditional likelihood =  -380.1529  
Iteration 3:   log conditional likelihood = -380.15277  
Iteration 4:   log conditional likelihood = -380.15277  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1289
                                         N. of observations       =        262
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     224.46
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -380.15277  Pseudo R2                =     0.2658
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.565834   .6175036     2.54   0.011     .3555495    2.776119
p~e_asymmetry |  -2.985823   1.166226    -2.56   0.010    -5.271585   -.7000617
bc_mission_~f |   .0878521   .0358245     2.45   0.014     .0176373    .1580668
market_acce~f |  -.7037205   .7248303    -0.97   0.332    -2.124362    .7169208
retaliatory~f |  -.0237081   .1010787    -0.23   0.815    -.2218187    .1744025
    wto_share |   2.103074   .9182808     2.29   0.022     .3032761    3.902871
all_democracy |   .3417181   .4404962     0.78   0.438    -.5216386    1.205075
number_part~s |   .0194024   .0214818     0.90   0.366    -.0227011    .0615059
dv_cr_previ~a |   1.284303   .3057535     4.20   0.000     .6850374    1.883569
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare bc_mission_diff pta_dispute_asymmetry
>     market_access_diff   retaliatory_capacity_diff  wto_share all_democracy   
>   number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        275
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.3385                                         min =          3
     Between = 0.8555                                         avg =       12.5
     Overall = 0.4915                                         max =         23

                                                F(9,21)           =      29.77
corr(u_i, Xb) = 0.3268                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.805226   .3197332     5.65   0.000     1.140304    2.470147
bc_mission_~f |   .0410823   .0206984     1.98   0.060    -.0019623    .0841269
p~e_asymmetry |  -1.906545   .6237409    -3.06   0.006    -3.203685   -.6094047
market_acce~f |  -.1946557   .3695724    -0.53   0.604    -.9632236    .5739123
retaliatory~f |  -.0243582   .0624646    -0.39   0.700    -.1542604     .105544
    wto_share |   1.115909   .5392445     2.07   0.051    -.0055115    2.237329
all_democracy |   .2257158   .2648102     0.85   0.404    -.3249872    .7764187
number_part~s |   .0234177   .0154116     1.52   0.144    -.0086325    .0554678
dv_cr_previ~a |   .6936482     .16997     4.08   0.001     .3401762     1.04712
        _cons |  -3.202925    .864587    -3.70   0.001    -5.000932   -1.404918
--------------+----------------------------------------------------------------
      sigma_u |  .52608441
      sigma_e |  1.2573565
          rho |  .14898169   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ** Table 12 **
. 
. ologit dv_cr_index   dispute_experienceshare bc_mission_diff market_access_dif
> f  retaliatory_capacity_diff  wto_all all_democracy   pta_depth_index  number_
> parties dv_cr_previouspta i.year##i.year#i.year if year>1994, robust

Iteration 0:   log pseudolikelihood = -592.97465  
Iteration 1:   log pseudolikelihood = -417.10474  
Iteration 2:   log pseudolikelihood = -391.93392  
Iteration 3:   log pseudolikelihood = -391.36593  
Iteration 4:   log pseudolikelihood = -391.36381  
Iteration 5:   log pseudolikelihood = -391.36381  

Ordered logistic regression                             Number of obs =    332
                                                        Wald chi2(30) = 280.38
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -391.36381                       Pseudo R2     = 0.3400

-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.294672   .4487575     2.89   0.004     .4151231     2.17422
bc_mission_~f |   .0456539   .0427523     1.07   0.286     -.038139    .1294469
market_acce~f |  -1.131262   .5026366    -2.25   0.024    -2.116412   -.1461125
retaliatory~f |   .0579477    .064559     0.90   0.369    -.0685856    .1844811
      wto_all |   .3517632   .3271469     1.08   0.282    -.2894331    .9929594
all_democracy |  -.0885749   .3130314    -0.28   0.777    -.7021051    .5249554
pta_depth_i~x |   .8821019   .1456655     6.06   0.000     .5966028    1.167601
number_part~s |   .0190635   .0162181     1.18   0.240    -.0127233    .0508503
dv_cr_previ~a |   .9730556   .2156552     4.51   0.000     .5503793    1.395732
              |
         year |
        1996  |  -.2473707   .5551843    -0.45   0.656    -1.335512    .8407705
        1997  |   .2462479   .5594883     0.44   0.660     -.850329    1.342825
        1998  |   .1907326   .6383742     0.30   0.765    -1.060458    1.441923
        1999  |  -.5237662   .6532861    -0.80   0.423    -1.804183     .756651
        2000  |  -.2293443   .7124511    -0.32   0.748    -1.625723    1.167034
        2001  |   .7153183   .5517745     1.30   0.195    -.3661398    1.796776
        2002  |   .2342189   .5818464     0.40   0.687    -.9061791    1.374617
        2003  |  -.4958967   .6608509    -0.75   0.453    -1.791141    .7993472
        2004  |   2.059311   .5922268     3.48   0.001     .8985683    3.220055
        2005  |   .3070428    1.17516     0.26   0.794    -1.996228    2.610313
        2006  |   .3743537   .7712764     0.49   0.627     -1.13732    1.886028
        2007  |   .6200976   .7010688     0.88   0.376    -.7539719    1.994167
        2008  |   .0419519    .843432     0.05   0.960    -1.611144    1.695048
        2009  |   .5319392   .6854809     0.78   0.438    -.8115786    1.875457
        2010  |   1.327567   .5896532     2.25   0.024     .1718683    2.483266
        2011  |   1.122702   1.054632     1.06   0.287    -.9443379    3.189743
        2012  |   1.228652   .6699427     1.83   0.067    -.0844121    2.541715
        2013  |   1.402952   .7835573     1.79   0.073    -.1327924    2.938696
        2014  |   .1792827   1.437455     0.12   0.901    -2.638078    2.996643
        2015  |  -.1821916   .9345276    -0.19   0.845    -2.013832    1.649449
        2016  |  -2.474213   1.179497    -2.10   0.036    -4.785985   -.1624421
--------------+----------------------------------------------------------------
        /cut1 |   .5671317   .7146385                     -.8335341    1.967797
        /cut2 |   3.306977   .7204109                      1.894997    4.718956
        /cut3 |   3.897785   .7163577                       2.49375    5.301821
        /cut4 |   5.609473   .7789349                      4.082788    7.136157
        /cut5 |   6.262443   .7826328                      4.728511    7.796375
        /cut6 |   7.556081    .836247                      5.917067    9.195095
        /cut7 |    13.5544    1.27094                       11.0634    16.04539
-------------------------------------------------------------------------------

. 
. ologit dv_cr_index pta_dispute_asymmetry   bc_mission_diff market_access_diff 
>  retaliatory_capacity_diff  wto_all all_democracy   pta_depth_index  number_pa
> rties dv_cr_previouspta i.year##i.year#i.year if year>1994, robust

Iteration 0:   log pseudolikelihood = -431.89222  
Iteration 1:   log pseudolikelihood = -310.88299  
Iteration 2:   log pseudolikelihood = -292.31585  
Iteration 3:   log pseudolikelihood =  -291.8308  
Iteration 4:   log pseudolikelihood = -291.82904  
Iteration 5:   log pseudolikelihood = -291.82904  

Ordered logistic regression                             Number of obs =    260
                                                        Wald chi2(30) = 191.82
                                                        Prob > chi2   = 0.0000
Log pseudolikelihood = -291.82904                       Pseudo R2     = 0.3243

-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -2.523489   1.009417    -2.50   0.012    -4.501911   -.5450679
bc_mission_~f |   .0966728   .0445599     2.17   0.030      .009337    .1840086
market_acce~f |  -1.712317   .6204587    -2.76   0.006    -2.928394   -.4962405
retaliatory~f |  -.0532087   .0908932    -0.59   0.558    -.2313561    .1249387
      wto_all |   1.183653   .3639951     3.25   0.001     .4702352     1.89707
all_democracy |    .104644   .3981421     0.26   0.793    -.6757001    .8849881
pta_depth_i~x |   .8982131   .1560302     5.76   0.000     .5923995    1.204027
number_part~s |   .0445659   .0208132     2.14   0.032     .0037727    .0853592
dv_cr_previ~a |    1.04274   .2846808     3.66   0.000     .4847759    1.600704
              |
         year |
        1996  |  -.0343858   .6418466    -0.05   0.957    -1.292382     1.22361
        1997  |   .5287293   .6173464     0.86   0.392    -.6812474    1.738706
        1998  |   .7459801   .7178801     1.04   0.299    -.6610391    2.152999
        1999  |  -.6950679   .8588927    -0.81   0.418    -2.378467    .9883309
        2000  |  -.4245631   .9252462    -0.46   0.646    -2.238012    1.388886
        2001  |    .586511   .7129603     0.82   0.411    -.8108654    1.983887
        2002  |   .5014166   .6797998     0.74   0.461    -.8309665      1.8338
        2003  |    .268056   .8355388     0.32   0.748     -1.36957    1.905682
        2004  |   2.277076   .6880557     3.31   0.001     .9285115     3.62564
        2005  |    .335293   1.166708     0.29   0.774    -1.951413    2.621999
        2006  |   .4174256   .8535035     0.49   0.625    -1.255411    2.090262
        2007  |   .5619196   .7200017     0.78   0.435    -.8492578    1.973097
        2008  |   .3564358   .8637399     0.41   0.680    -1.336463    2.049335
        2009  |   .5006759   .7206986     0.69   0.487    -.9118674    1.913219
        2010  |   1.450683   .6160457     2.35   0.019     .2432555     2.65811
        2011  |   1.112339   1.059383     1.05   0.294    -.9640129    3.188691
        2012  |   1.097273   .7518766     1.46   0.144    -.3763779    2.570924
        2013  |   1.341354   .8277367     1.62   0.105    -.2809805    2.963688
        2014  |  -.0745895   1.498412    -0.05   0.960    -3.011424    2.862245
        2015  |   -.484005   .9599544    -0.50   0.614    -2.365481    1.397471
        2016  |   -2.25041   1.233948    -1.82   0.068    -4.668904    .1680835
--------------+----------------------------------------------------------------
        /cut1 |   .9808674   1.143303                     -1.259966      3.2217
        /cut2 |   3.580918   1.144837                      1.337078    5.824758
        /cut3 |   4.078608   1.149118                      1.826379    6.330837
        /cut4 |   5.638137   1.207226                      3.272018    8.004255
        /cut5 |   6.261468   1.205241                      3.899238    8.623698
        /cut6 |   7.649162   1.261699                      5.176278    10.12205
        /cut7 |   13.90683   1.698684                      10.57747    17.23619
-------------------------------------------------------------------------------

. 
. xtreg dv_cr_pca   dispute_experienceshare bc_mission_diff market_access_diff  
> retaliatory_capacity_diff  wto_all all_democracy   pta_depth_index  number_par
> ties dv_cr_previouspta i.year##i.year#i.year if year>1994, robust

Random-effects GLS regression                   Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5782                                         min =          3
     Between = 1.0000                                         avg =       15.1
     Overall = 0.7630                                         max =         25

                                                Wald chi2(9)      =          .
corr(u_i, X) = 0 (assumed)                      Prob > chi2       =          .

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.312818    .251271     5.22   0.000     .8203355      1.8053
bc_mission_~f |   .0216388    .022416     0.97   0.334    -.0222957    .0655733
market_acce~f |  -.5137549   .2880674    -1.78   0.075    -1.078357    .0508467
retaliatory~f |   .0202128   .0400932     0.50   0.614    -.0583684    .0987939
      wto_all |   .1920093   .1863482     1.03   0.303    -.1732264    .5572449
all_democracy |  -.0976336   .2010984    -0.49   0.627    -.4917793     .296512
pta_depth_i~x |   .4304848   .0543898     7.91   0.000     .3238828    .5370868
number_part~s |   .0190993   .0116348     1.64   0.101    -.0037045     .041903
dv_cr_previ~a |   .2734496   .1375358     1.99   0.047     .0038844    .5430147
              |
         year |
        1979  |          0  (empty)
        1980  |          0  (empty)
        1981  |          0  (empty)
        1982  |          0  (empty)
        1983  |          0  (empty)
        1984  |          0  (empty)
        1985  |          0  (empty)
        1986  |          0  (empty)
        1987  |          0  (empty)
        1988  |          0  (empty)
        1989  |          0  (empty)
        1990  |          0  (empty)
        1991  |          0  (empty)
        1992  |          0  (empty)
        1993  |          0  (empty)
        1994  |          0  (empty)
        1995  |   .6538697   .2616124     2.50   0.012     .1411189     1.16662
        1996  |   .5442477   .2668548     2.04   0.041      .021222    1.067273
        1997  |   .4321737   .2703677     1.60   0.110    -.0977371    .9620846
        1998  |   .4647329   .2885584     1.61   0.107    -.1008312    1.030297
        1999  |    .078008   .2618482     0.30   0.766    -.4352051    .5912211
        2000  |   .3131385   .2720468     1.15   0.250    -.2200634    .8463404
        2001  |   .7830966   .2339128     3.35   0.001     .3246358    1.241557
        2002  |   .5973177   .2322988     2.57   0.010     .1420203    1.052615
        2003  |   .2639464    .222716     1.19   0.236    -.1725689    .7004617
        2004  |   1.545223   .2090919     7.39   0.000     1.135411    1.955036
        2005  |   1.120843   .2037445     5.50   0.000     .7215109    1.520175
        2006  |   .9370322   .1861433     5.03   0.000     .5721981    1.301866
        2007  |   1.158244   .1838766     6.30   0.000     .7978526    1.518636
        2008  |   1.114113    .198464     5.61   0.000     .7251303    1.503095
        2009  |   1.277677   .1876845     6.81   0.000     .9098226    1.645532
        2010  |   1.373976   .1454982     9.44   0.000     1.088804    1.659147
        2011  |   1.452071   .1876186     7.74   0.000     1.084345    1.819796
        2012  |   1.342275   .1574843     8.52   0.000     1.033611    1.650939
        2013  |   1.441576   .1657998     8.69   0.000     1.116615    1.766538
        2014  |   .9827303   .1306135     7.52   0.000     .7267325    1.238728
        2015  |   1.081846   .3262936     3.32   0.001     .4423221     1.72137
        2016  |          0  (omitted)
              |
        _cons |  -2.790657   .4217966    -6.62   0.000    -3.617363   -1.963951
--------------+----------------------------------------------------------------
      sigma_u |          0
      sigma_e |  1.0092639
          rho |          0   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg dv_cr_pca  pta_dispute_asymmetry   bc_mission_diff market_access_diff  r
> etaliatory_capacity_diff  wto_all all_democracy   pta_depth_index  number_part
> ies dv_cr_previouspta i.year##i.year#i.year if year>1994, robust

Random-effects GLS regression                   Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5259                                         min =          3
     Between = 1.0000                                         avg =       11.8
     Overall = 0.6887                                         max =         22

                                                Wald chi2(9)      =          .
corr(u_i, X) = 0 (assumed)                      Prob > chi2       =          .

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |   -1.74091   .5863866    -2.97   0.003    -2.890207   -.5916137
bc_mission_~f |   .0400517   .0212658     1.88   0.060    -.0016285     .081732
market_acce~f |   -.891963   .3562242    -2.50   0.012     -1.59015   -.1937765
retaliatory~f |  -.0489917   .0696086    -0.70   0.482    -.1854221    .0874387
      wto_all |   .7036123   .2592396     2.71   0.007     .1955122    1.211713
all_democracy |  -.0056771   .2688141    -0.02   0.983    -.5325431    .5211888
pta_depth_i~x |   .4459596   .0595002     7.50   0.000     .3293414    .5625778
number_part~s |   .0310921   .0162111     1.92   0.055     -.000681    .0628652
dv_cr_previ~a |   .2774391   .1709594     1.62   0.105    -.0576352    .6125133
              |
         year |
        1979  |          0  (empty)
        1980  |          0  (empty)
        1981  |          0  (empty)
        1982  |          0  (empty)
        1983  |          0  (empty)
        1984  |          0  (empty)
        1985  |          0  (empty)
        1986  |          0  (empty)
        1987  |          0  (empty)
        1988  |          0  (empty)
        1989  |          0  (empty)
        1990  |          0  (empty)
        1991  |          0  (empty)
        1992  |          0  (empty)
        1993  |          0  (empty)
        1994  |          0  (empty)
        1995  |  -.2594317   .5308038    -0.49   0.625    -1.299788    .7809246
        1996  |  -.2993221   .5212725    -0.57   0.566    -1.320997    .7223532
        1997  |  -.5645741   .5243774    -1.08   0.282    -1.592335    .4631868
        1998  |  -.3598588   .5232865    -0.69   0.492    -1.385482     .665764
        1999  |  -1.043332   .5327287    -1.96   0.050    -2.087461    .0007969
        2000  |  -.8011421   .5441453    -1.47   0.141    -1.867647    .2653632
        2001  |  -.1727629   .4502412    -0.38   0.701    -1.055219    .7096936
        2002  |  -.2415584   .4473935    -0.54   0.589    -1.118434    .6353168
        2003  |     -.5348   .4759759    -1.12   0.261    -1.467696    .3980957
        2004  |   .5553674   .4488155     1.24   0.216    -.3242949     1.43503
        2005  |    .185303   .3417336     0.54   0.588    -.4844825    .8550886
        2006  |  -.0196318   .3469221    -0.06   0.955    -.6995865     .660323
        2007  |   .2494222   .3076258     0.81   0.417    -.3535132    .8523576
        2008  |   .3856713   .3181023     1.21   0.225    -.2377977     1.00914
        2009  |   .2765417   .3364711     0.82   0.411    -.3829296     .936013
        2010  |   .4761576   .3661817     1.30   0.193    -.2415452     1.19386
        2011  |   .4495642   .3940791     1.14   0.254    -.3228166    1.221945
        2012  |   .2679391   .3730875     0.72   0.473     -.463299    .9991772
        2013  |   .4426788   .3441435     1.29   0.198      -.23183    1.117188
        2014  |  -.0947188   .3541386    -0.27   0.789    -.7888177    .5993801
        2015  |          0  (omitted)
        2016  |  -.7938049   .3903298    -2.03   0.042    -1.558837   -.0287726
              |
        _cons |  -1.237333   .8999989    -1.37   0.169    -3.001299    .5266323
--------------+----------------------------------------------------------------
      sigma_u |          0
      sigma_e |  1.0788228
          rho |          0   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. xtreg dv_cr_pca  pta_dispute_asymmetry  dispute_experienceshare bc_mission_dif
> f market_access_diff  retaliatory_capacity_diff  wto_all all_democracy   pta_d
> epth_index  number_parties dv_cr_previouspta i.year##i.year#i.year if year>199
> 4, robust

Random-effects GLS regression                   Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5357                                         min =          3
     Between = 1.0000                                         avg =       11.8
     Overall = 0.6951                                         max =         22

                                                Wald chi2(10)     =          .
corr(u_i, X) = 0 (assumed)                      Prob > chi2       =          .

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -1.443901   .5972628    -2.42   0.016    -2.614514   -.2732872
dispute_exp~e |   .9232708   .4184189     2.21   0.027     .1031848    1.743357
bc_mission_~f |   .0421052   .0202908     2.08   0.038      .002336    .0818744
market_acce~f |  -.6873696   .3960617    -1.74   0.083    -1.463636     .088897
retaliatory~f |  -.0476908    .065818    -0.72   0.469    -.1766918    .0813101
      wto_all |   .4692322   .2258548     2.08   0.038     .0265649    .9118994
all_democracy |  -.0030465   .2582792    -0.01   0.991    -.5092646    .5031715
pta_depth_i~x |   .4241432   .0589542     7.19   0.000     .3085951    .5396912
number_part~s |   .0337314   .0164198     2.05   0.040     .0015491    .0659137
dv_cr_previ~a |   .2756116   .1762596     1.56   0.118    -.0698508     .621074
              |
         year |
        1979  |          0  (empty)
        1980  |          0  (empty)
        1981  |          0  (empty)
        1982  |          0  (empty)
        1983  |          0  (empty)
        1984  |          0  (empty)
        1985  |          0  (empty)
        1986  |          0  (empty)
        1987  |          0  (empty)
        1988  |          0  (empty)
        1989  |          0  (empty)
        1990  |          0  (empty)
        1991  |          0  (empty)
        1992  |          0  (empty)
        1993  |          0  (empty)
        1994  |          0  (empty)
        1995  |  -.2892664   .5132047    -0.56   0.573    -1.295129    .7165962
        1996  |  -.3131359   .5060318    -0.62   0.536     -1.30494    .6786683
        1997  |  -.6106782   .5205167    -1.17   0.241    -1.630872    .4095158
        1998  |  -.3679388   .5117154    -0.72   0.472    -1.370883     .635005
        1999  |  -1.153586   .5298612    -2.18   0.029    -2.192095   -.1150768
        2000  |   -.855308    .544567    -1.57   0.116     -1.92264    .2120237
        2001  |  -.1595906   .4403842    -0.36   0.717    -1.022728    .7035467
        2002  |  -.2811228    .438949    -0.64   0.522    -1.141447    .5792015
        2003  |  -.5603823   .4695922    -1.19   0.233    -1.480766    .3600014
        2004  |   .5849022   .4440341     1.32   0.188    -.2853887    1.455193
        2005  |   .1132383   .3406731     0.33   0.740    -.5544687    .7809453
        2006  |  -.0921016   .3399745    -0.27   0.786    -.7584394    .5742362
        2007  |   .1560273   .3028036     0.52   0.606    -.4374569    .7495115
        2008  |   .2500364   .3247176     0.77   0.441    -.3863984    .8864712
        2009  |   .2775334   .3251475     0.85   0.393    -.3597439    .9148107
        2010  |   .3698219    .365827     1.01   0.312    -.3471858     1.08683
        2011  |   .3808458   .3832091     0.99   0.320    -.3702303    1.131922
        2012  |   .2145743   .3532891     0.61   0.544    -.4778597    .9070083
        2013  |   .3436872   .3420076     1.00   0.315    -.3266353     1.01401
        2014  |  -.1331461   .3428319    -0.39   0.698    -.8050842     .538792
        2015  |          0  (omitted)
        2016  |  -.8759023   .3848241    -2.28   0.023    -1.630144   -.1216609
              |
        _cons |  -1.850035   1.006952    -1.84   0.066    -3.823624    .1235538
--------------+----------------------------------------------------------------
      sigma_u |          0
      sigma_e |  1.0699623
          rho |          0   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. ** Table 13 **
. 
. xtreg  dv_cr_pca dispute_experienceshare    bc_mission_diff market_access_diff
>    tradevolume  wto_share all_democracy   pta_depth_index  number_parties dv_c
> r_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        332
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5837                                         min =          3
     Between = 0.9081                                         avg =       15.1
     Overall = 0.7230                                         max =         25

                                                F(9,21)           =      60.79
corr(u_i, Xb) = 0.4036                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.427817   .2862568     4.99   0.000      .832513     2.02312
bc_mission_~f |   .0172311   .0233776     0.74   0.469    -.0313853    .0658476
market_acce~f |  -.5218244   .2447866    -2.13   0.045    -1.030886   -.0127627
  tradevolume |   .0582987   .0382708     1.52   0.143    -.0212898    .1378871
    wto_share |  -.2461512   .2524966    -0.97   0.341    -.7712467    .2789443
all_democracy |  -.0720789   .1869756    -0.39   0.704     -.460916    .3167582
pta_depth_i~x |   .4260591   .0507339     8.40   0.000     .3205522    .5315661
number_part~s |   .0152008   .0080205     1.90   0.072    -.0014788    .0318804
dv_cr_previ~a |   .2517829   .1383495     1.82   0.083    -.0359306    .5394964
        _cons |  -2.868622   .7185106    -3.99   0.001    -4.362847   -1.374398
--------------+----------------------------------------------------------------
      sigma_u |   .4842125
      sigma_e |  1.0027307
          rho |  .18909263   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare  bc_mission_diff  market_access_d
> iff   tradevolume  wto_share all_democracy   pta_depth_index  number_parties d
> v_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -423.10418  
Iteration 1:   log conditional likelihood = -370.85771  
Iteration 2:   log conditional likelihood = -369.93703  
Iteration 3:   log conditional likelihood = -369.93321  
Iteration 4:   log conditional likelihood = -369.93321  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1677
                                         N. of observations       =        319
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     395.03
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -369.93321  Pseudo R2                =     0.4716
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |    1.96466   .5325291     3.69   0.000     .9209222    3.008398
bc_mission_~f |   .0344033   .0457575     0.75   0.452    -.0552797    .1240864
market_acce~f |  -1.086581   .5545369    -1.96   0.050    -2.173453    .0002913
  tradevolume |   .1184687   .0737492     1.61   0.108    -.0260772    .2630145
    wto_share |  -.1210644   .6357104    -0.19   0.849    -1.367034    1.124905
all_democracy |   .0134943   .4406892     0.03   0.976    -.8502406    .8772293
pta_depth_i~x |   .8804051   .1486652     5.92   0.000     .5890265    1.171784
number_part~s |   .0237985   .0118668     2.01   0.045     .0005401     .047057
dv_cr_previ~a |   .7256294   .3261123     2.23   0.026     .0864611    1.364798
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca  pta_dispute_asymmetry   bc_mission_diff market_access_diff  
>  tradevolume  wto_share all_democracy   pta_depth_index  number_parties dv_cr_
> previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5187                                         min =          3
     Between = 0.8554                                         avg =       11.8
     Overall = 0.6255                                         max =         22

                                                F(9,21)           =      26.95
corr(u_i, Xb) = 0.3201                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -1.216355   .5932149    -2.05   0.053    -2.450013    .0173031
bc_mission_~f |   .0204564   .0236435     0.87   0.397    -.0287129    .0696257
market_acce~f |  -.9240069   .3268986    -2.83   0.010     -1.60383   -.2441841
  tradevolume |   .0588337   .0554871     1.06   0.301     -.056558    .1742255
    wto_share |   1.112286   .5472396     2.03   0.055    -.0257615    2.250333
all_democracy |   .0462011   .2393373     0.19   0.849    -.4515281    .5439303
pta_depth_i~x |   .4403595     .05616     7.84   0.000     .3235683    .5571507
number_part~s |   .0082121   .0076198     1.08   0.293     -.007634    .0240582
dv_cr_previ~a |   .2336981   .1667488     1.40   0.176     -.113075    .5804713
        _cons |  -2.541626    1.44811    -1.76   0.094    -5.553135    .4698836
--------------+----------------------------------------------------------------
      sigma_u |  .48620786
      sigma_e |  1.0870437
          rho |  .16670503   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index  pta_dispute_asymmetry bc_mission_diff  market_access_dif
> f   tradevolume  wto_share all_democracy   pta_depth_index  number_parties dv_
> cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -291.67783  
Iteration 1:   log conditional likelihood = -262.94762  
Iteration 2:   log conditional likelihood = -262.27259  
Iteration 3:   log conditional likelihood = -262.27199  
Iteration 4:   log conditional likelihood = -262.27199  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(9)             =     444.24
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -262.27199  Pseudo R2                =     0.4627
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
p~e_asymmetry |  -2.556669   .9104876    -2.81   0.005    -4.341192   -.7721459
bc_mission_~f |   .0434104   .0448911     0.97   0.334    -.0445745    .1313954
market_acce~f |  -1.901677   .7252932    -2.62   0.009    -3.323225    -.480128
  tradevolume |   .0803828   .0870591     0.92   0.356    -.0902499    .2510156
    wto_share |   2.189477   1.023915     2.14   0.032     .1826404    4.196314
all_democracy |   .1643262   .4888202     0.34   0.737    -.7937438    1.122396
pta_depth_i~x |    .927802   .1514692     6.13   0.000     .6309278    1.224676
number_part~s |   .0210701   .0109599     1.92   0.055    -.0004109     .042551
dv_cr_previ~a |   .5515438   .3255653     1.69   0.090    -.0865525     1.18964
-------------------------------------------------------------------------------

. 
. xtreg  dv_cr_pca dispute_experienceshare pta_dispute_asymmetry   bc_mission_di
> ff market_access_diff   tradevolume  wto_share all_democracy   pta_depth_index
>   number_parties dv_cr_previouspta if year>1994, fe robust

Fixed-effects (within) regression               Number of obs     =        260
Group variable: year                            Number of groups  =         22

R-squared:                                      Obs per group:
     Within  = 0.5290                                         min =          3
     Between = 0.8551                                         avg =       11.8
     Overall = 0.6303                                         max =         22

                                                F(10,21)          =      33.90
corr(u_i, Xb) = 0.2912                          Prob > F          =     0.0000

                                   (Std. err. adjusted for 22 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
    dv_cr_pca | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   .9902947   .4563994     2.17   0.042     .0411603    1.939429
p~e_asymmetry |  -1.015098    .584426    -1.74   0.097    -2.230478    .2002828
bc_mission_~f |   .0266416   .0219956     1.21   0.239    -.0191007     .072384
market_acce~f |    -.73821   .3562087    -2.07   0.051    -1.478987    .0025666
  tradevolume |   .0397816   .0589612     0.67   0.507    -.0828348    .1623981
    wto_share |   .5765132   .5222856     1.10   0.282    -.5096391    1.662666
all_democracy |   .0319755   .2344129     0.14   0.893    -.4555128    .5194638
pta_depth_i~x |   .4218022   .0563842     7.48   0.000     .3045449    .5390596
number_part~s |   .0151795   .0087483     1.74   0.097    -.0030136    .0333727
dv_cr_previ~a |    .243282   .1729833     1.41   0.174    -.1164564    .6030204
        _cons |  -2.612157   1.415075    -1.85   0.079    -5.554966    .3306516
--------------+----------------------------------------------------------------
      sigma_u |   .4821389
      sigma_e |  1.0777235
          rho |  .16676252   (fraction of variance due to u_i)
-------------------------------------------------------------------------------

. 
. feologit dv_cr_index dispute_experienceshare pta_dispute_asymmetry bc_mission_
> diff  market_access_diff   tradevolume  wto_share all_democracy   pta_depth_in
> dex  number_parties dv_cr_previouspta if year > 1994, group(year)

note: multiple positive outcomes within groups encountered.

Iteration 0:   log conditional likelihood = -290.99604  
Iteration 1:   log conditional likelihood = -260.68574  
Iteration 2:   log conditional likelihood = -260.07971  
Iteration 3:   log conditional likelihood = -260.07796  
Iteration 4:   log conditional likelihood = -260.07796  

Fixed-effects ordered logistic regression

                                         N. of obs. (inc. copies) =       1211
                                         N. of observations       =        247
                                         N. of panel units        =         20
                                         Wald chi2(10)            =     411.73
                                         Prob > chi2              =     0.0000
Log conditional likelihood = -260.07796  Pseudo R2                =     0.4672
                                   (Std. err. adjusted for 20 clusters in year)
-------------------------------------------------------------------------------
              |               Robust
  dv_cr_index | Coefficient  std. err.      z    P>|z|     [95% conf. interval]
--------------+----------------------------------------------------------------
dispute_exp~e |   1.195184     .92645     1.29   0.197    -.6206249    3.010992
p~e_asymmetry |  -2.215715   .9589455    -2.31   0.021    -4.095214   -.3362167
bc_mission_~f |   .0589085   .0438495     1.34   0.179     -.027035    .1448521
market_acce~f |  -1.620873   .8246062    -1.97   0.049    -3.237071   -.0046743
  tradevolume |   .0564895    .091195     0.62   0.536    -.1222495    .2352284
    wto_share |   1.652502    1.02915     1.61   0.108    -.3645947    3.669598
all_democracy |    .103506   .4892849     0.21   0.832    -.8554748    1.062487
pta_depth_i~x |   .9244768   .1512122     6.11   0.000     .6281064    1.220847
number_part~s |   .0287406   .0114814     2.50   0.012     .0062375    .0512437
dv_cr_previ~a |   .5622285    .337949     1.66   0.096    -.1001394    1.224596
-------------------------------------------------------------------------------

. 
. 
. *****************************
. ****** MONADIC ANALYSIS *****
. *****************************
. 
. clear all

. use monadic_level_analysis.dta

. 
. 
. * Figure 11
. esplot dv_cr_index_distance eventtime, period(5) ytitle("Deviation from WTO Co
> mplainant Rights") xtitle("Years before/after first Dispute") graphregion(colo
> r(white))
-38 is not divisible by 5, starting pre-period at -35

. graph save fig11, replace
file fig11.gph saved

. graph export "fig11.eps", as(eps) replace
file fig11.eps saved as EPS format

. 
. * Figure 12
. esplot dv_cr_index_distance eventtime_third, period(5) ytitle("Deviation from 
> WTO Complainant Rights") xtitle("Years before/after first Dispute") graphregio
> n(color(white))
-37 is not divisible by 5, starting pre-period at -35

. graph save fig12, replace
file fig12.gph saved

. graph export "fig12.eps", as(eps) replace
file fig12.eps saved as EPS format

. 
. * Figure 13
. hist year if switch==1, xtitle("Year") ytitle("Density (First WTO Dispute)") w
> idth(1) graphregion(color(white))
(bin=22, start=1995, width=1)

. graph save fig13, replace
file fig13.gph saved

. graph export "fig13.eps", as(eps) replace
file fig13.eps saved as EPS format

. 
. 
. *** Table 4 - monadic 2FE models ***
. 
. * Models D1-D6
. 
. reghdfe  dv_cr_index_distance  treatment, absorb(ccodeN year) vce(cluster ccod
> eN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =      1,113
Absorbing 2 HDFE groups                           F(   1,    137) =       4.00
Statistics robust to heteroskedasticity           Prob > F        =     0.0475
                                                  R-squared       =     0.5344
                                                  Adj R-squared   =     0.4487
                                                  Within R-sq.    =     0.0100
Number of clusters (ccodeN)  =        138         Root MSE        =     0.9754

                               (Std. err. adjusted for 138 clusters in ccodeN)
------------------------------------------------------------------------------
             |               Robust
dv_cr_inde~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
   treatment |  -.5910889   .2955464    -2.00   0.047    -1.175512   -.0066663
       _cons |   2.607138   .0254919   102.27   0.000      2.55673    2.657546
------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       138         138           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment  wto_membership EU_membership US_memb
> ership , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F(   4,    134) =       8.51
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5505
                                                  Adj R-squared   =     0.4668
                                                  Within R-sq.    =     0.0524
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9589

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
    treatment |  -.6279901   .2742307    -2.29   0.024    -1.170371   -.0856095
wto_members~p |  -.3809041   .1263645    -3.01   0.003     -.630831   -.1309772
EU_membership |  -.7218623   .1508138    -4.79   0.000    -1.020146   -.4235788
US_membership |   -1.16642   .4716188    -2.47   0.015      -2.0992   -.2336401
        _cons |   2.957619   .0903919    32.72   0.000     2.778839    3.136398
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment c.year##ccodeN wto_membership EU_memb
> ership US_membership,  absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 158bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 234bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 262bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 430bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 434bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 462bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 520bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 634bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 678bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 706bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 760bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 887bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F( 136,    134) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6219
                                                  Adj R-squared   =     0.4772
                                                  Within R-sq.    =     0.2029
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9495

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
    treatment |  -1.056144    .317844    -3.32   0.001    -1.684784   -.4275044
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         158  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         234  |          0  (omitted)
         242  |          0  (omitted)
         262  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         430  |          0  (omitted)
         434  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         462  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         520  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         634  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         678  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         706  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         760  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         887  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |   -.283466   .0792298    -3.58   0.000    -.4401688   -.1267633
          12  |   -.044667   .0147221    -3.03   0.003    -.0737847   -.0155492
          24  |  -.0045784   .0073125    -0.63   0.532    -.0190413    .0098845
          28  |  -.0120969   .0135152    -0.90   0.372    -.0388276    .0146338
          31  |  -.1419572   .0396738    -3.58   0.000     -.220425   -.0634894
          44  |  -.0929168   .0162389    -5.72   0.000    -.1250346   -.0607991
          48  |  -.0220206   .0111828    -1.97   0.051    -.0441383     .000097
          50  |   .0421594   .0255725     1.65   0.102    -.0084185    .0927373
          51  |  -.0231515   .0302497    -0.77   0.445    -.0829801    .0366771
          52  |   -.061774   .0129788    -4.76   0.000    -.0874438   -.0361042
          64  |  -.0488354   .0280899    -1.74   0.084    -.1043923    .0067215
          68  |  -.1222936   .0119938   -10.20   0.000    -.1460152    -.098572
          70  |   -.091656   .0382679    -2.40   0.018    -.1673432   -.0159688
          72  |   .0008169   .0091694     0.09   0.929    -.0173186    .0189524
          84  |  -.0920705   .0171257    -5.38   0.000    -.1259421    -.058199
          90  |   .0325686   .0072947     4.46   0.000     .0181409    .0469962
          96  |  -.0912341   .0339485    -2.69   0.008    -.1583783   -.0240898
         100  |   .0140559    .027835     0.50   0.614    -.0409969    .0691086
         108  |  -.0213624   .0093216    -2.29   0.023    -.0397989   -.0029259
         112  |  -.0492432   .0303941    -1.62   0.108    -.1093575     .010871
         120  |   .0739205   .0138592     5.33   0.000     .0465094    .1013317
         132  |   .0191473   .0095726     2.00   0.047     .0002144    .0380802
         140  |   .0816593   .0132804     6.15   0.000      .055393    .1079256
         144  |   .0256548   .0291254     0.88   0.380    -.0319502    .0832598
         148  |   .0579907   .0156446     3.71   0.000     .0270485    .0889329
         156  |  -.1503031   .0503563    -2.98   0.003     -.249899   -.0507072
         158  |   .0640258   .0452879     1.41   0.160    -.0255459    .1535975
         174  |  -.0209818   .0091061    -2.30   0.023     -.038992   -.0029715
         178  |   .0729393   .0139734     5.22   0.000     .0453023    .1005762
         180  |  -.0400907   .0113615    -3.53   0.001    -.0625619   -.0176196
         191  |   .2668737   .0473854     5.63   0.000     .1731537    .3605937
         196  |  -1.237345    .446351    -2.77   0.006     -2.12015   -.3545409
         200  |  -.7644609   .1988223    -3.84   0.000    -1.157697    -.371225
         204  |     .02669    .009143     2.92   0.004     .0086068    .0447731
         212  |  -.0251696   .0104291    -2.41   0.017    -.0457965   -.0045427
         218  |  -.0614405   .0201818    -3.04   0.003    -.1013566   -.0215245
         222  |  -.1044385   .0208772    -5.00   0.000    -.1457299    -.063147
         226  |   .0729393   .0139734     5.22   0.000     .0453023    .1005762
         231  |  -.0332526   .0102064    -3.26   0.001    -.0534391   -.0130662
         232  |   .1556336    .028132     5.53   0.000     .0999934    .2112738
         233  |   .0191162   .0262023     0.73   0.467    -.0327073    .0709397
         234  |   .0418039   .0353783     1.18   0.239    -.0281683     .111776
         242  |  -.0411756   .0100389    -4.10   0.000    -.0610309   -.0213204
         262  |   -.038134   .0056658    -6.73   0.000    -.0493399   -.0269281
         266  |   .0729393   .0139734     5.22   0.000     .0453023    .1005762
         268  |  -.0139749   .0293644    -0.48   0.635    -.0720526    .0441029
         270  |   .0031221    .010042     0.31   0.756    -.0167392    .0229834
         275  |   .2155841   .0965646     2.23   0.027     .0245961    .4065721
         288  |   .0020197   .0101416     0.20   0.842    -.0180387     .022078
         296  |  -.0375588   .0105136    -3.57   0.000    -.0583528   -.0167648
         308  |  -.0336443   .0106414    -3.16   0.002    -.0546911   -.0125975
         324  |   .0597604   .0072964     8.19   0.000     .0453294    .0741915
         328  |  -.0564003   .0143135    -3.94   0.000    -.0847099   -.0280906
         332  |  -.0401025   .0152963    -2.62   0.010    -.0703558   -.0098491
         340  |  -.0536071   .0232364    -2.31   0.023    -.0995646   -.0076495
         347  |          0  (omitted)
         348  |   .1874612   .0357413     5.24   0.000     .1167712    .2581513
         364  |  -.0187398   .0213604    -0.88   0.382    -.0609869    .0235073
         368  |  -.0538604   .0118821    -4.53   0.000    -.0773611   -.0303597
         372  |   .1011112    .030047     3.37   0.001     .0416834     .160539
         384  |  -.0611972   .0142189    -4.30   0.000    -.0893198   -.0330746
         398  |  -.1417479   .0335671    -4.22   0.000    -.2081377   -.0753581
         400  |   -.081638   .0157047    -5.20   0.000    -.1126991   -.0505768
         404  |  -.0164116   .0088134    -1.86   0.065     -.033843    .0010198
         414  |  -.0661192   .0130697    -5.06   0.000    -.0919688   -.0402696
         417  |  -.1039177   .0301117    -3.45   0.001    -.1634733   -.0443621
         418  |  -.1990563   .0304003    -6.55   0.000    -.2591827   -.1389299
         422  |  -.0869376   .0144583    -6.01   0.000    -.1155336   -.0583417
         426  |  -.0044322   .0086979    -0.51   0.611    -.0216351    .0127707
         428  |   .0310143   .0298831     1.04   0.301    -.0280893    .0901178
         430  |   .0031221    .010042     0.31   0.756    -.0167392    .0229834
         434  |  -.0477592   .0111749    -4.27   0.000    -.0698611   -.0256573
         440  |   .0190348   .0268228     0.71   0.479     -.034016    .0720856
         442  |   .0536916   .0259208     2.07   0.040     .0024247    .1049584
         450  |  -.0230854   .0092482    -2.50   0.014    -.0413766   -.0047941
         458  |  -.0227483   .0259924    -0.88   0.383    -.0741568    .0286602
         462  |  -.1149367   .0325495    -3.53   0.001     -.179314   -.0505595
         466  |   .0223969   .0085242     2.63   0.010     .0055375    .0392562
         478  |  -.0386045   .0093996    -4.11   0.000    -.0571953   -.0200136
         480  |   .0409836   .0157233     2.61   0.010     .0098856    .0720815
         498  |   .0089723   .0268574     0.33   0.739    -.0441469    .0620914
         499  |  -.0224879   .0866293    -0.26   0.796    -.1938255    .1488497
         504  |  -.0497249   .0143975    -3.45   0.001    -.0782006   -.0212493
         508  |   .0274462    .014707     1.87   0.064    -.0016416     .056534
         512  |  -.0561721   .0139593    -4.02   0.000    -.0837811   -.0285632
         516  |  -.0528558   .0318265    -1.66   0.099     -.115803    .0100914
         520  |  -1.226656   .2241038    -5.47   0.000    -1.669894   -.7834178
         524  |  -.0043935   .0299406    -0.15   0.884    -.0636108    .0548238
         548  |  -.0673007   .0132328    -5.09   0.000    -.0934728   -.0411286
         562  |  -.0032318    .012984    -0.25   0.804    -.0289119    .0224482
         566  |  -.0075549   .0156123    -0.48   0.629    -.0384334    .0233236
         591  |   .0021876   .0265646     0.08   0.934    -.0503525    .0547276
         598  |   .0370248   .0074649     4.96   0.000     .0222605    .0517891
         600  |   .0572569   .0163593     3.50   0.001     .0249011    .0896128
         624  |   .0213357   .0061625     3.46   0.001     .0091473    .0335242
         634  |  -.0260135   .0107029    -2.43   0.016    -.0471818   -.0048451
         642  |   .0500086   .0318425     1.57   0.119    -.0129703    .1129875
         643  |  -.0917675   .0289769    -3.17   0.002    -.1490788   -.0344562
         646  |  -.0213624   .0093216    -2.29   0.023    -.0397989   -.0029259
         659  |  -.0330441    .012013    -2.75   0.007    -.0568037   -.0092845
         662  |  -.0336443   .0106414    -3.16   0.002    -.0546911   -.0125975
         670  |  -.0408527   .0125352    -3.26   0.001     -.065645   -.0160603
         678  |  -.0308464   .0127836    -2.41   0.017    -.0561302   -.0055626
         682  |  -.0605487    .011774    -5.14   0.000    -.0838357   -.0372618
         686  |   .0276478   .0090345     3.06   0.003     .0097791    .0455165
         688  |  -.0474384    .017587    -2.70   0.008    -.0822225   -.0126544
         690  |   -.002825   .0091954    -0.31   0.759    -.0210118    .0153619
         694  |   .0031221    .010042     0.31   0.756    -.0167392    .0229834
         703  |  -.0291301   .0369185    -0.79   0.431    -.1021484    .0438882
         704  |  -.0853105   .0261135    -3.27   0.001    -.1369583   -.0336626
         705  |  -.1291649   .0318273    -4.06   0.000    -.1921137   -.0662161
         706  |  -.0526699    .013798    -3.82   0.000      -.07996   -.0253799
         729  |  -.0166318   .0104182    -1.60   0.113    -.0372372    .0039736
         740  |  -.0526181   .0160434    -3.28   0.001    -.0843492   -.0208871
         748  |  -.0060647   .0086764    -0.70   0.486    -.0232251    .0110956
         760  |  -.0336536   .0132388    -2.54   0.012    -.0598376   -.0074695
         762  |  -.1486271   .0344903    -4.31   0.000    -.2168429   -.0804112
         768  |   .0276478   .0090345     3.06   0.003     .0097791    .0455165
         776  |  -.0457431   .0112151    -4.08   0.000    -.0679247   -.0235614
         780  |  -.0568453    .020646    -2.75   0.007    -.0976795   -.0160111
         784  |  -.0181917   .0089068    -2.04   0.043    -.0358079   -.0005755
         788  |   .0231082   .0143268     1.61   0.109    -.0052278    .0514442
         795  |  -.2940317   .0421009    -6.98   0.000    -.3772999   -.2107636
         798  |  -.0375588   .0105136    -3.57   0.000    -.0583528   -.0167648
         800  |  -.0164116   .0088134    -1.86   0.065     -.033843    .0010198
         804  |  -.0194446   .0301101    -0.65   0.520    -.0789971     .040108
         807  |   .1095925   .0389699     2.81   0.006     .0325169    .1866681
         818  |   -.045335   .0276656    -1.64   0.104    -.1000528    .0093827
         834  |  -.0201215   .0088538    -2.27   0.025    -.0376328   -.0026102
         854  |  -.0032318    .012984    -0.25   0.804    -.0289119    .0224482
         860  |  -.1480805   .0332209    -4.46   0.000    -.2137856   -.0823753
         882  |  -.0457431   .0112151    -4.08   0.000    -.0679247   -.0235614
         887  |  -.0587619   .0117403    -5.01   0.000    -.0819822   -.0355416
         894  |          0  (omitted)
              |
wto_members~p |  -.4281505   .1774766    -2.41   0.017    -.7791682   -.0771327
EU_membership |  -.7972561   .1753686    -4.55   0.000    -1.144105   -.4504075
US_membership |  -1.273908   .3652725    -3.49   0.001    -1.996354   -.5514628
        _cons |   58.66639    25.3949     2.31   0.022     8.439709    108.8931
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. summarize bc_at_switch if e(sample) & bc_at_switch!=0, d

                        bc_at_switch
-------------------------------------------------------------
      Percentiles      Smallest
 1%     6.346227       6.346227
 5%     7.322868       6.346227
10%     7.463643       6.346227       Obs                 274
25%     7.633234       6.346227       Sum of wgt.         274

50%     8.251341                      Mean           8.467099
                        Largest       Std. dev.      .9641205
75%      9.12381       11.09277
90%     9.401543       11.09277       Variance       .9295284
95%     10.42892       11.09277       Skewness       .6175426
99%     11.09277       11.09277       Kurtosis       3.181859

. gen bc_standard=bc_at_switch-8.251341  // standardise on median of bureaucrati
> c capacity

. 
. reghdfe  dv_cr_index_distance treatment_third, absorb(ccodeN year) vce(cluster
>  ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =      1,113
Absorbing 2 HDFE groups                           F(   1,    137) =       3.57
Statistics robust to heteroskedasticity           Prob > F        =     0.0610
                                                  R-squared       =     0.5329
                                                  Adj R-squared   =     0.4469
                                                  Within R-sq.    =     0.0068
Number of clusters (ccodeN)  =        138         Root MSE        =     0.9770

                                (Std. err. adjusted for 138 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |  -.3858384   .2042743    -1.89   0.061    -.7897767    .0180999
        _cons |   2.609194   .0280808    92.92   0.000     2.553666    2.664722
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       138         138           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third wto_membership EU_membership US_
> membership , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F(   4,    134) =       8.48
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5490
                                                  Adj R-squared   =     0.4650
                                                  Within R-sq.    =     0.0492
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9605

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |   -.422677   .1939816    -2.18   0.031    -.8063388   -.0390152
wto_members~p |  -.3790613   .1324344    -2.86   0.005    -.6409935   -.1171292
EU_membership |  -.7277588   .1510313    -4.82   0.000    -1.026472   -.4290452
US_membership |  -1.116898   .4990015    -2.24   0.027    -2.103836     -.12996
        _cons |   2.961589   .0932721    31.75   0.000     2.777113    3.146065
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third c.year##ccodeN wto_membership EU
> _membership US_membership , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 158bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 234bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 262bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 430bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 434bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 462bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 520bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 634bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 678bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 706bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 760bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 887bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F( 136,    134) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6200
                                                  Adj R-squared   =     0.4746
                                                  Within R-sq.    =     0.1989
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9518

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |  -.6672271   .2359729    -2.83   0.005     -1.13394   -.2005138
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         158  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         234  |          0  (omitted)
         242  |          0  (omitted)
         262  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         430  |          0  (omitted)
         434  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         462  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         520  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         634  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         678  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         706  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         760  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         887  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2831282   .0783942    -3.61   0.000    -.4381782   -.1280781
          12  |   -.048652   .0155572    -3.13   0.002    -.0794214   -.0178827
          24  |  -.0067126   .0074617    -0.90   0.370    -.0214705    .0080453
          28  |  -.0236427   .0129402    -1.83   0.070    -.0492361    .0019507
          31  |   -.146494   .0402003    -3.64   0.000    -.2260033   -.0669847
          44  |  -.0951312   .0169723    -5.61   0.000    -.1286995    -.061563
          48  |  -.0259408   .0127095    -2.04   0.043     -.051078   -.0008036
          50  |   .0150098   .0262829     0.57   0.569    -.0369732    .0669928
          51  |  -.0385854   .0292439    -1.32   0.189    -.0964248    .0192539
          52  |  -.0325654   .0169043    -1.93   0.056    -.0659991    .0008683
          64  |  -.0506274   .0278261    -1.82   0.071    -.1056626    .0044078
          68  |   -.123912   .0123664   -10.02   0.000    -.1483706   -.0994534
          70  |   -.094883   .0390065    -2.43   0.016     -.172031    -.017735
          72  |  -.0005343   .0092984    -0.06   0.954    -.0189249    .0178563
          84  |  -.0614941    .020817    -2.95   0.004    -.1026664   -.0203218
          90  |   .0322106   .0077167     4.17   0.000     .0169484    .0474728
          96  |  -.0823024   .0381077    -2.16   0.033    -.1576727   -.0069321
         100  |   .0128034   .0282055     0.45   0.651    -.0429822    .0685889
         108  |  -.0217266   .0097937    -2.22   0.028    -.0410969   -.0023563
         112  |  -.0482694   .0310164    -1.56   0.122    -.1096145    .0130756
         120  |   .0992411   .0169953     5.84   0.000     .0656273    .1328549
         132  |   .0185972   .0099495     1.87   0.064    -.0010812    .0382757
         140  |   .0796934   .0141276     5.64   0.000     .0517515    .1076352
         144  |  -.0039685   .0281636    -0.14   0.888    -.0596712    .0517343
         148  |   .0736365   .0170766     4.31   0.000      .039862     .107411
         156  |  -.1588199   .0509082    -3.12   0.002    -.2595074   -.0581323
         158  |   .0539955   .0456291     1.18   0.239    -.0362508    .1442418
         174  |  -.0214753   .0095525    -2.25   0.026    -.0403685   -.0025821
         178  |   .0709323   .0148299     4.78   0.000     .0416014    .1002632
         180  |   -.040508   .0118468    -3.42   0.001    -.0639389    -.017077
         191  |   .2297555   .0501674     4.58   0.000      .130533     .328978
         196  |  -1.265011    .449663    -2.81   0.006    -2.154366   -.3756563
         200  |  -.8149014   .1971132    -4.13   0.000    -1.204757   -.4250458
         204  |   .0260015   .0095873     2.71   0.008     .0070394    .0449635
         212  |   .0043024   .0147298     0.29   0.771    -.0248306    .0334355
         218  |  -.0833391   .0178936    -4.66   0.000    -.1187295   -.0479488
         222  |  -.0719833   .0231866    -3.10   0.002    -.1178424   -.0261243
         226  |   .0709323   .0148299     4.78   0.000     .0416014    .1002632
         231  |   -.033804   .0106759    -3.17   0.002    -.0549191   -.0126889
         232  |   .1471873   .0285872     5.15   0.000     .0906468    .2037278
         233  |   .0158955   .0267328     0.59   0.553    -.0369774    .0687684
         234  |   .0410114   .0360945     1.14   0.258    -.0303772    .1123999
         242  |   -.042072   .0103245    -4.07   0.000     -.062492   -.0216519
         262  |  -.0381104   .0057586    -6.62   0.000       -.0495   -.0267209
         266  |   .0709323   .0148299     4.78   0.000     .0416014    .1002632
         268  |  -.0140207   .0298798    -0.47   0.640    -.0731176    .0450763
         270  |   .0024965   .0105064     0.24   0.813    -.0182834    .0232764
         275  |   .1910892   .1011755     1.89   0.061    -.0090184    .3911968
         288  |   .0284195    .012883     2.21   0.029     .0029392    .0538998
         296  |  -.0389786   .0110993    -3.51   0.001     -.060931   -.0170262
         308  |  -.0042122   .0147119    -0.29   0.775    -.0333097    .0248853
         324  |     .05885   .0073937     7.96   0.000     .0442265    .0734734
         328  |  -.0459707   .0152606    -3.01   0.003    -.0761534   -.0157879
         332  |  -.0466528   .0162061    -2.88   0.005    -.0787055      -.0146
         340  |  -.0741424    .023306    -3.18   0.002    -.1202376   -.0280472
         347  |          0  (omitted)
         348  |   .1496425   .0330605     4.53   0.000     .0842546    .2150305
         364  |  -.0209798    .021689    -0.97   0.335    -.0638768    .0219172
         368  |  -.0562153   .0120127    -4.68   0.000    -.0799743   -.0324563
         372  |   .0766644   .0292646     2.62   0.010     .0187841    .1345447
         384  |  -.0357526   .0172661    -2.07   0.040    -.0699019   -.0016033
         398  |  -.1389005   .0331751    -4.19   0.000     -.204515    -.073286
         400  |  -.0831856   .0159116    -5.23   0.000     -.114656   -.0517151
         404  |  -.0165926   .0091602    -1.81   0.072    -.0347098    .0015247
         414  |  -.0678669   .0135823    -5.00   0.000    -.0947304   -.0410035
         417  |  -.0997515    .029738    -3.35   0.001     -.158568    -.040935
         418  |  -.2029741   .0309381    -6.56   0.000    -.2641643   -.1417839
         422  |  -.0887269    .014908    -5.95   0.000    -.1182122   -.0592415
         426  |  -.0055682   .0087998    -0.63   0.528    -.0229726    .0118363
         428  |   .0287283    .030405     0.94   0.346    -.0314075    .0888641
         430  |   .0024965   .0105064     0.24   0.813    -.0182834    .0232764
         434  |  -.0501346   .0112976    -4.44   0.000    -.0724792   -.0277901
         440  |    .016118   .0274269     0.59   0.558    -.0381276    .0703636
         442  |   .0519432   .0271541     1.91   0.058     -.001763    .1056493
         450  |   .0007647   .0118548     0.06   0.949     -.022682    .0242115
         458  |  -.0353678   .0277362    -1.28   0.204    -.0902251    .0194894
         462  |  -.1172312   .0321181    -3.65   0.000    -.1807552   -.0537071
         466  |   .0225058    .008553     2.63   0.010     .0055895    .0394221
         478  |  -.0390047   .0099225    -3.93   0.000    -.0586297   -.0193797
         480  |   .0667569   .0174388     3.83   0.000      .032266    .1012478
         498  |   -.005203   .0273943    -0.19   0.850    -.0593842    .0489782
         499  |  -.0019208   .0812053    -0.02   0.981    -.1625308    .1586892
         504  |  -.0517018   .0145945    -3.54   0.001    -.0805671   -.0228364
         508  |   .0270281   .0148692     1.82   0.071    -.0023806    .0564368
         512  |  -.0609827   .0163034    -3.74   0.000     -.093228   -.0287374
         516  |  -.0589185   .0320575    -1.84   0.068    -.1223227    .0044857
         520  |  -1.211951   .2244215    -5.40   0.000    -1.655817    -.768084
         524  |  -.0077427   .0297292    -0.26   0.795    -.0665418    .0510564
         548  |  -.0707716   .0137617    -5.14   0.000    -.0979897   -.0435534
         562  |  -.0038965   .0134427    -0.29   0.772    -.0304838    .0226908
         566  |   .0220499   .0185125     1.19   0.236    -.0145646    .0586644
         591  |  -.0172116   .0274453    -0.63   0.532    -.0714935    .0370704
         598  |   .0369377   .0079023     4.67   0.000     .0213083    .0525672
         600  |   .0824665   .0184969     4.46   0.000     .0458828    .1190502
         624  |   .0212344    .006282     3.38   0.001     .0088096    .0336592
         634  |  -.0271081   .0109795    -2.47   0.015    -.0488236   -.0053927
         642  |   .0173534   .0304274     0.57   0.569    -.0428266    .0775335
         643  |   -.060582   .0293422    -2.06   0.041    -.1186158   -.0025481
         646  |  -.0217266   .0097937    -2.22   0.028    -.0410969   -.0023563
         659  |  -.0196467   .0130095    -1.51   0.133    -.0453772    .0060839
         662  |  -.0042122   .0147119    -0.29   0.775    -.0333097    .0248853
         670  |  -.0101742   .0164486    -0.62   0.537    -.0427066    .0223582
         678  |  -.0316809   .0132419    -2.39   0.018    -.0578712   -.0054907
         682  |  -.0622961   .0120544    -5.17   0.000    -.0861375   -.0384547
         686  |   .0506226   .0118965     4.26   0.000     .0270933    .0741518
         688  |  -.0499409   .0184633    -2.70   0.008    -.0864582   -.0134236
         690  |  -.0036042   .0095775    -0.38   0.707    -.0225468    .0153385
         694  |   .0024965   .0105064     0.24   0.813    -.0182834    .0232764
         703  |  -.0596223    .037324    -1.60   0.113    -.1334427    .0141981
         704  |  -.0868267   .0347458    -2.50   0.014    -.1555478   -.0181056
         705  |  -.1340193   .0325537    -4.12   0.000    -.1984048   -.0696337
         706  |  -.0541266   .0141252    -3.83   0.000    -.0820637   -.0261894
         729  |  -.0178036   .0108898    -1.63   0.104    -.0393418    .0037346
         740  |  -.0235776    .019024    -1.24   0.217    -.0612038    .0140486
         748  |   .0092002   .0106717     0.86   0.390    -.0119065     .030307
         760  |  -.0346973   .0135178    -2.57   0.011    -.0614332   -.0079615
         762  |  -.1450177   .0337713    -4.29   0.000    -.2118114    -.078224
         768  |   .0271287   .0094596     2.87   0.005     .0084193     .045838
         776  |  -.0472014   .0118099    -4.00   0.000    -.0705594   -.0238434
         780  |  -.0768997   .0183981    -4.18   0.000     -.113288   -.0405114
         784  |  -.0194123   .0091044    -2.13   0.035    -.0374193   -.0014053
         788  |   .0211519   .0143566     1.47   0.143     -.007243    .0495467
         795  |  -.2959566   .0422752    -7.00   0.000    -.3795696   -.2123437
         798  |  -.0389786   .0110993    -3.51   0.001     -.060931   -.0170262
         800  |  -.0165926   .0091602    -1.81   0.072    -.0347098    .0015247
         804  |  -.0367997   .0293631    -1.25   0.212    -.0948748    .0212754
         807  |    .109533   .0386233     2.84   0.005     .0331429     .185923
         818  |  -.0766466   .0257018    -2.98   0.003    -.1274802   -.0258129
         834  |  -.0205694   .0091541    -2.25   0.026    -.0386746   -.0024641
         854  |  -.0038965   .0134427    -0.29   0.772    -.0304838    .0226908
         860  |  -.1450203   .0327535    -4.43   0.000    -.2098011   -.0802395
         882  |  -.0472014   .0118099    -4.00   0.000    -.0705594   -.0238434
         887  |  -.0608828   .0118508    -5.14   0.000    -.0843216   -.0374439
         894  |          0  (omitted)
              |
wto_members~p |  -.4410739   .1843626    -2.39   0.018    -.8057109   -.0764368
EU_membership |  -.8010128   .1742559    -4.60   0.000    -1.145661   -.4563649
US_membership |  -1.087122   .4760017    -2.28   0.024    -2.028571    -.145674
        _cons |   61.44362   26.97786     2.28   0.024      8.08612    114.8011
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. summarize bc_at_switch_third bc if e(sample) & treatment_third==1,d

                     bc_at_switch_third
-------------------------------------------------------------
      Percentiles      Smallest
 1%            0              0
 5%     6.282728              0
10%     6.978226              0       Obs                 153
25%     7.275016              0       Sum of wgt.         153

50%     8.251341                      Mean           7.861926
                        Largest       Std. dev.      1.678892
75%     8.613436       9.568144
90%      9.12381       10.42892       Variance        2.81868
95%       9.5614       10.42892       Skewness      -3.256727
99%     10.42892       10.42892       Kurtosis       16.15578

                             bc
-------------------------------------------------------------
      Percentiles      Smallest
 1%     6.346227       6.064039
 5%     7.059129       6.346227
10%     7.231935       6.394623       Obs                 148
25%     7.738872       6.445796       Sum of wgt.         148

50%     8.509349                      Mean           8.400349
                        Largest       Std. dev.      .8516815
75%     8.988765       9.744006
90%     9.326379       10.42892       Variance       .7253614
95%     9.634227       10.70817       Skewness      -.1138437
99%     10.70817       10.89852       Kurtosis       3.203294

. gen bc_third_standard= bc_at_switch_third-8.509349 // standardise on median of
>  bureaucratic capacity

. 
. * Models I1-I3 + Figure 8 + I4-I6
. 
. summarize bc_at_switch

    Variable |        Obs        Mean    Std. dev.       Min        Max
-------------+---------------------------------------------------------
bc_at_switch |      6,239    1.488289    3.297587          0   11.09277

. global MyMin = r(min)

. global MyMax = r(max)

. global Grid = ($MyMax-$MyMin)/100

. 
. reghdfe  dv_cr_index treatment##c.bc_standard, absorb(ccodeN year) vce(cluster
>  ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =      1,113
Absorbing 2 HDFE groups                           F(   2,    137) =       5.74
Statistics robust to heteroskedasticity           Prob > F        =     0.0040
                                                  R-squared       =     0.5380
                                                  Adj R-squared   =     0.4523
                                                  Within R-sq.    =     0.0175
Number of clusters (ccodeN)  =        138         Root MSE        =     0.9722

                                (Std. err. adjusted for 138 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |   -.641416   .2642912    -2.43   0.017    -1.164034   -.1187983
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .5330653   .2368321     2.25   0.026     .0647462    1.001385
              |
        _cons |   2.633536   .0244003   107.93   0.000     2.585286    2.681786
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       138         138           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. frame create orsCI bc_standard or orlb orub

. lincom 0*_b[1.treatment#c.bc_standard]+1*_b[1.treatment]

 ( 1)  1.treatment = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   -.641416   .2642912    -2.43   0.017    -1.164034   -.1187983
------------------------------------------------------------------------------

. forvalues a = -2(.1)4 {
  2.     lincom `a'*_b[1.treatment#c.bc_standard]+1*_b[1.treatment]
  3.     frame post orsCI (`a') (`r(estimate)') (`r(lb)') (`r(ub)')
  4. }

 ( 1)  1.treatment - 2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.707547   .5318115    -3.21   0.002    -2.759167    -.655926
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   -1.65424   .5113881    -3.23   0.002    -2.665475   -.6430053
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.600934   .4912575    -3.26   0.001    -2.572362   -.6295057
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.547627   .4714572    -3.28   0.001    -2.479901    -.615353
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.494321   .4520305    -3.31   0.001     -2.38818   -.6004614
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.441014   .4330277    -3.33   0.001    -2.297297   -.5847315
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.387708   .4145073    -3.35   0.001    -2.207367   -.5680479
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.334401   .3965367    -3.37   0.001    -2.118525    -.550277
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.281094   .3791941    -3.38   0.001    -2.030925   -.5312641
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1.1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.227788   .3625697    -3.39   0.001    -1.944745   -.5108312
------------------------------------------------------------------------------

 ( 1)  1.treatment - 1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.174481   .3467668    -3.39   0.001    -1.860189   -.4887738
------------------------------------------------------------------------------

 ( 1)  1.treatment - .9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.121175   .3319028    -3.38   0.001     -1.77749   -.4648599
------------------------------------------------------------------------------

 ( 1)  1.treatment - .8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.067868   .3181092    -3.36   0.001    -1.696907   -.4388293
------------------------------------------------------------------------------

 ( 1)  1.treatment - .7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -1.014562   .3055311    -3.32   0.001    -1.618728   -.4103951
------------------------------------------------------------------------------

 ( 1)  1.treatment - .6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.9612552   .2943244    -3.27   0.001    -1.543261   -.3792491
------------------------------------------------------------------------------

 ( 1)  1.treatment - .5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.9079487    .284651    -3.19   0.002    -1.470826   -.3450709
------------------------------------------------------------------------------

 ( 1)  1.treatment - .4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.8546422   .2766719    -3.09   0.002    -1.401742   -.3075425
------------------------------------------------------------------------------

 ( 1)  1.treatment - .3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.8013356    .270537    -2.96   0.004    -1.336304   -.2663672
------------------------------------------------------------------------------

 ( 1)  1.treatment - .2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.7480291   .2663738    -2.81   0.006    -1.274765   -.2212931
------------------------------------------------------------------------------

 ( 1)  1.treatment - .1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.6947226   .2642755    -2.63   0.010    -1.217309   -.1721359
------------------------------------------------------------------------------

 ( 1)  1.treatment + 6.38e-16*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   -.641416   .2642912    -2.43   0.017    -1.164034   -.1187983
------------------------------------------------------------------------------

 ( 1)  1.treatment + .1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.5881095   .2664206    -2.21   0.029    -1.114938    -.061281
------------------------------------------------------------------------------

 ( 1)  1.treatment + .2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   -.534803   .2706138    -1.98   0.050    -1.069923    .0003173
------------------------------------------------------------------------------

 ( 1)  1.treatment + .3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.4814964    .276777    -1.74   0.084    -1.028804    .0658111
------------------------------------------------------------------------------

 ( 1)  1.treatment + .4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.4281899   .2847824    -1.50   0.135    -.9913274    .1349476
------------------------------------------------------------------------------

 ( 1)  1.treatment + .5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.3748834   .2944796    -1.27   0.205    -.9571965    .2074298
------------------------------------------------------------------------------

 ( 1)  1.treatment + .6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.3215768   .3057078    -1.05   0.295    -.9260931    .2829394
------------------------------------------------------------------------------

 ( 1)  1.treatment + .7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.2682703   .3183051    -0.84   0.401    -.8976967    .3611561
------------------------------------------------------------------------------

 ( 1)  1.treatment + .8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.2149638   .3321155    -0.65   0.519    -.8716994    .4417719
------------------------------------------------------------------------------

 ( 1)  1.treatment + .9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.1616572   .3469944    -0.47   0.642    -.8478149    .5245004
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.1083507   .3628103    -0.30   0.766    -.8257832    .6090818
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.0550441   .3794461    -0.15   0.885    -.8053727    .6952844
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |  -.0017376   .3967986    -0.00   0.997    -.7863795    .7829043
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .0515689   .4147779     0.12   0.901    -.7686258    .8717636
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .1048755   .4333059     0.24   0.809    -.7519572    .9617081
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |    .158182   .4523153     0.35   0.727    -.7362405    1.052604
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .2114885   .4717479     0.45   0.655    -.7213605    1.144338
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .2647951   .4915535     0.54   0.591    -.7072181    1.236808
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .3181016   .5116887     0.62   0.535    -.6937276    1.329931
------------------------------------------------------------------------------

 ( 1)  1.treatment + 1.9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .3714081   .5321162     0.70   0.486     -.680815    1.423631
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .4247147   .5528035     0.77   0.444    -.6684162    1.517846
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .4780212   .5737226     0.83   0.406    -.6564757    1.612518
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .5313277   .5948489     0.89   0.373    -.6449451    1.707601
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .5846343   .6161613     0.95   0.344    -.6337822    1.803051
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .6379408   .6376409     1.00   0.319    -.6229503    1.898832
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .6912473   .6592715     1.05   0.296    -.6124168    1.994911
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .7445539   .6810388     1.09   0.276    -.6021534    2.091261
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .7978604   .7029299     1.14   0.258    -.5921351    2.187856
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .8511669   .7249336     1.17   0.242    -.5823395    2.284673
------------------------------------------------------------------------------

 ( 1)  1.treatment + 2.9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   .9044735   .7470401     1.21   0.228     -.572747    2.381694
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |     .95778   .7692405     1.25   0.215    -.5633402      2.4789
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.1*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.011087   .7915268     1.28   0.204    -.5541033    2.576276
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.2*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.064393    .813892     1.31   0.193    -.5450225    2.673809
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.3*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |     1.1177   .8363298     1.34   0.184    -.5360851    2.771484
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.4*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.171006   .8588345     1.36   0.175      -.52728    2.869292
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.5*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.224313    .881401     1.39   0.167    -.5185971    2.967222
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.6*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.277619   .9040245     1.41   0.160    -.5100271    3.065266
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.7*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.330926   .9267011     1.44   0.153    -.5015618    3.163413
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.8*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.384232   .9494267     1.46   0.147    -.4931938    3.261658
------------------------------------------------------------------------------

 ( 1)  1.treatment + 3.9*1.treatment#c.bc_standard = 0

------------------------------------------------------------------------------
dv_cr_inde~e | Coefficient  Std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
         (1) |   1.437539   .9721981     1.48   0.142    -.4849161    3.359994
------------------------------------------------------------------------------

. 
. frame change orsCI

. isid bc_standard, sort
(data now sorted by bc_standard)

. format or %3.2f

. format orlb %3.2f

. format orub %3.2f

. list, noobs clean

    bc_sta~d      or    orlb    orub  
          -2   -1.71   -2.76   -0.66  
        -1.9   -1.65   -2.67   -0.64  
        -1.8   -1.60   -2.57   -0.63  
        -1.7   -1.55   -2.48   -0.62  
        -1.6   -1.49   -2.39   -0.60  
        -1.5   -1.44   -2.30   -0.58  
        -1.4   -1.39   -2.21   -0.57  
        -1.3   -1.33   -2.12   -0.55  
        -1.2   -1.28   -2.03   -0.53  
        -1.1   -1.23   -1.94   -0.51  
          -1   -1.17   -1.86   -0.49  
         -.9   -1.12   -1.78   -0.46  
         -.8   -1.07   -1.70   -0.44  
         -.7   -1.01   -1.62   -0.41  
         -.6   -0.96   -1.54   -0.38  
         -.5   -0.91   -1.47   -0.35  
         -.4   -0.85   -1.40   -0.31  
         -.3   -0.80   -1.34   -0.27  
         -.2   -0.75   -1.27   -0.22  
         -.1   -0.69   -1.22   -0.17  
    6.38e-16   -0.64   -1.16   -0.12  
          .1   -0.59   -1.11   -0.06  
          .2   -0.53   -1.07    0.00  
          .3   -0.48   -1.03    0.07  
          .4   -0.43   -0.99    0.13  
          .5   -0.37   -0.96    0.21  
          .6   -0.32   -0.93    0.28  
          .7   -0.27   -0.90    0.36  
          .8   -0.21   -0.87    0.44  
          .9   -0.16   -0.85    0.52  
           1   -0.11   -0.83    0.61  
         1.1   -0.06   -0.81    0.70  
         1.2   -0.00   -0.79    0.78  
         1.3    0.05   -0.77    0.87  
         1.4    0.10   -0.75    0.96  
         1.5    0.16   -0.74    1.05  
         1.6    0.21   -0.72    1.14  
         1.7    0.26   -0.71    1.24  
         1.8    0.32   -0.69    1.33  
         1.9    0.37   -0.68    1.42  
           2    0.42   -0.67    1.52  
         2.1    0.48   -0.66    1.61  
         2.2    0.53   -0.64    1.71  
         2.3    0.58   -0.63    1.80  
         2.4    0.64   -0.62    1.90  
         2.5    0.69   -0.61    1.99  
         2.6    0.74   -0.60    2.09  
         2.7    0.80   -0.59    2.19  
         2.8    0.85   -0.58    2.28  
         2.9    0.90   -0.57    2.38  
           3    0.96   -0.56    2.48  
         3.1    1.01   -0.55    2.58  
         3.2    1.06   -0.55    2.67  
         3.3    1.12   -0.54    2.77  
         3.4    1.17   -0.53    2.87  
         3.5    1.22   -0.52    2.97  
         3.6    1.28   -0.51    3.07  
         3.7    1.33   -0.50    3.16  
         3.8    1.38   -0.49    3.26  
         3.9    1.44   -0.48    3.36  

. 
. graph twoway  (rarea orub orlb bc_standard, color(gs10%30)) (line or bc_standa
> rd , sort lcolor(gs90) yline(0, lcolor(red)))  (line  orub bc_standard, lcolor
> (gs6) ) (line orlb  bc_standard, lcolor(gs6) graphregion(color(white)) ytitle(
> Post-Dispute Effect) xtitle(Bureaucratic Capacity at Time of First WTO Dispute
> ) legend(off))
(note:  named style gs90 not found in class color, default attributes used)
(note:  named style gs90 not found in class color, default attributes used)

. graph save fig8, replace
file fig8.gph saved

. graph export "fig8.eps", as(eps) replace 
file fig8.eps saved as EPS format

. 
. frames change default

. 
. reghdfe  dv_cr_index_distance  treatment##c.bc_standard wto_membership EU_memb
> ership US_membership , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F(   5,    134) =       8.93
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5531
                                                  Adj R-squared   =     0.4693
                                                  Within R-sq.    =     0.0579
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9566

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |  -.6729779   .2451873    -2.74   0.007    -1.157916   -.1880402
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .4601332   .2195122     2.10   0.038     .0259764    .8942901
              |
wto_members~p |  -.3633457   .1245324    -2.92   0.004    -.6096491   -.1170424
EU_membership |  -.7024643   .1522367    -4.61   0.000    -1.003562   -.4013667
US_membership |  -1.260522   .4199277    -3.00   0.003    -2.091066   -.4299783
        _cons |   2.967869   .0876067    33.88   0.000     2.794599     3.14114
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment##c.bc_standard c.year##ccodeN  EU_mem
> bership US_membership wto_membership,  absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 158bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 234bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 262bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 430bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 434bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 462bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 520bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 634bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 678bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 706bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 760bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 887bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F( 137,    134) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6229
                                                  Adj R-squared   =     0.4779
                                                  Within R-sq.    =     0.2051
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9488

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |   -1.14294   .2892118    -3.95   0.000     -1.71495   -.5709294
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .5496726   .3099083     1.77   0.078     -.063272    1.162617
              |
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         158  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         234  |          0  (omitted)
         242  |          0  (omitted)
         262  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         430  |          0  (omitted)
         434  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         462  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         520  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         634  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         678  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         706  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         760  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         887  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2800565   .0791947    -3.54   0.001    -.4366897   -.1234233
          12  |  -.0429483   .0150407    -2.86   0.005    -.0726962   -.0132003
          24  |  -.0041619   .0073305    -0.57   0.571    -.0186604    .0103366
          28  |  -.0234835   .0138764    -1.69   0.093    -.0509286    .0039615
          31  |  -.1422811   .0394333    -3.61   0.000    -.2202732   -.0642889
          44  |  -.0911411   .0166566    -5.47   0.000    -.1240849   -.0581974
          48  |  -.0208193   .0108842    -1.91   0.058    -.0423464    .0007077
          50  |   .1181615   .0491114     2.41   0.017     .0210276    .2152953
          51  |  -.0214645   .0316251    -0.68   0.498    -.0840134    .0410844
          52  |  -.0601465   .0132623    -4.54   0.000    -.0863769    -.033916
          64  |   -.047543   .0284365    -1.67   0.097    -.1037853    .0086994
          68  |  -.1217822   .0120108   -10.14   0.000    -.1455374    -.098027
          70  |  -.0901969   .0372953    -2.42   0.017    -.1639605   -.0164333
          72  |   .0002922   .0090764     0.03   0.974    -.0176593    .0182436
          84  |  -.0901991   .0175002    -5.15   0.000    -.1248114   -.0555868
          90  |    .033093   .0072848     4.54   0.000      .018685     .047501
          96  |  -.0981141    .033221    -2.95   0.004    -.1638195   -.0324086
         100  |   .0121047   .0276309     0.44   0.662    -.0425445    .0667538
         108  |  -.0201997   .0094166    -2.15   0.034    -.0388242   -.0015753
         112  |  -.0526978   .0303062    -1.74   0.084    -.1126382    .0072426
         120  |   .0757546   .0142388     5.32   0.000     .0475927    .1039165
         132  |   .0202003   .0095757     2.11   0.037     .0012612    .0391393
         140  |   .0833734   .0136076     6.13   0.000     .0564599    .1102869
         144  |   .0687509   .0372307     1.85   0.067    -.0048849    .1423867
         148  |   .0598175   .0160732     3.72   0.000     .0280274    .0916075
         156  |  -.1516627   .0498111    -3.04   0.003    -.2501805    -.053145
         158  |   .0630053   .0439793     1.43   0.154     -.023978    .1499886
         174  |  -.0198628   .0091815    -2.16   0.032    -.0380222   -.0017033
         178  |   .0746949   .0143428     5.21   0.000     .0463274    .1030624
         180  |  -.0388626   .0115657    -3.36   0.001    -.0617376   -.0159876
         191  |   .2074917   .0617419     3.36   0.001      .085377    .3296063
         196  |  -1.157461   .4580285    -2.53   0.013    -2.063362   -.2515605
         200  |  -.7726223   .1977742    -3.91   0.000    -1.163785   -.3814594
         204  |    .027941   .0092566     3.02   0.003      .009633     .046249
         212  |  -.0244774   .0105053    -2.33   0.021    -.0452551   -.0036997
         218  |    -.05597   .0196352    -2.85   0.005     -.094805   -.0171349
         222  |  -.1067055   .0207786    -5.14   0.000    -.1478019    -.065609
         226  |   .0746949   .0143428     5.21   0.000     .0463274    .1030624
         231  |  -.0320753   .0103594    -3.10   0.002    -.0525643   -.0115863
         232  |   .1551116   .0279941     5.54   0.000     .0997441    .2104792
         233  |   .0166402   .0260292     0.64   0.524     -.034841    .0681215
         234  |   .0433657   .0350708     1.24   0.218    -.0259981    .1127296
         242  |  -.0409526   .0100011    -4.09   0.000    -.0607331   -.0211722
         262  |  -.0376894   .0056524    -6.67   0.000    -.0488688     -.02651
         266  |   .0746949   .0143428     5.21   0.000     .0463274    .1030624
         268  |  -.0212303   .0295561    -0.72   0.474    -.0796871    .0372265
         270  |   .0042512   .0101443     0.42   0.676    -.0158125    .0243149
         275  |    .222107   .0954125     2.33   0.021     .0333977    .4108162
         288  |   .0032411   .0102553     0.32   0.752     -.017042    .0235243
         296  |  -.0364932   .0105565    -3.46   0.001    -.0573721   -.0156142
         308  |  -.0329118   .0107377    -3.07   0.003    -.0541491   -.0116746
         324  |   .0601255   .0073263     8.21   0.000     .0456353    .0746157
         328  |  -.0546284   .0146592    -3.73   0.000    -.0836218   -.0256351
         332  |  -.0379389   .0154848    -2.45   0.016    -.0685651   -.0073127
         340  |  -.0296993   .0258783    -1.15   0.253    -.0808821    .0214835
         347  |          0  (omitted)
         348  |   .1532151   .0393242     3.90   0.000     .0754387    .2309916
         364  |  -.0163832     .02175    -0.75   0.453    -.0594009    .0266345
         368  |   -.051804    .012286    -4.22   0.000    -.0761037   -.0275044
         372  |   .0353584   .0467014     0.76   0.450    -.0570089    .1277257
         384  |  -.0594251   .0145951    -4.07   0.000    -.0882917   -.0305584
         398  |  -.1476588   .0338679    -4.36   0.000    -.2146437    -.080674
         400  |   -.081483   .0155448    -5.24   0.000     -.112228    -.050738
         404  |  -.0153789   .0089357    -1.72   0.088    -.0330522    .0022943
         414  |  -.0650099   .0131411    -4.95   0.000    -.0910007    -.039019
         417  |   -.110798   .0302327    -3.66   0.000    -.1705929   -.0510031
         418  |  -.1984595    .030194    -6.57   0.000    -.2581778   -.1387411
         422  |  -.0860582   .0145225    -5.93   0.000    -.1147811   -.0573352
         426  |  -.0048899   .0086101    -0.57   0.571    -.0219193    .0121395
         428  |   .0285658   .0297605     0.96   0.339    -.0302952    .0874268
         430  |   .0042512   .0101443     0.42   0.676    -.0158125    .0243149
         434  |  -.0458903   .0115479    -3.97   0.000      -.06873   -.0230506
         440  |    .016393   .0267591     0.61   0.541    -.0365318    .0693179
         442  |   .0524755   .0258143     2.03   0.044     .0014192    .1035317
         450  |  -.0219563   .0093377    -2.35   0.020    -.0404248   -.0034879
         458  |  -.0331534   .0266663    -1.24   0.216    -.0858946    .0195878
         462  |  -.1129735   .0323228    -3.50   0.001    -.1769025   -.0490446
         466  |   .0225008   .0085301     2.64   0.009     .0056298    .0393718
         478  |  -.0375344   .0094825    -3.96   0.000    -.0562891   -.0187798
         480  |   .0388032   .0157452     2.46   0.015     .0076619    .0699444
         498  |   .0238141   .0289218     0.82   0.412    -.0333881    .0810163
         499  |  -.0509741    .090833    -0.56   0.576     -.230626    .1286778
         504  |  -.0482201     .01416    -3.41   0.001    -.0762261   -.0202142
         508  |   .0272372   .0145689     1.87   0.064    -.0015776    .0560519
         512  |  -.0546823    .013545    -4.04   0.000     -.081472   -.0278926
         516  |  -.0546118   .0314755    -1.74   0.085    -.1168648    .0076411
         520  |  -1.224809   .2226467    -5.50   0.000    -1.665165   -.7844525
         524  |  -.0047102   .0298531    -0.16   0.875    -.0637543     .054334
         548  |  -.0661466   .0133563    -4.95   0.000     -.092563   -.0397301
         562  |  -.0019674   .0132395    -0.15   0.882    -.0281528     .024218
         566  |  -.0060047   .0159939    -0.38   0.708    -.0376378    .0256285
         591  |  -.0036026   .0268042    -0.13   0.893    -.0566167    .0494115
         598  |   .0375904    .007464     5.04   0.000     .0228279    .0523528
         600  |   .0584183   .0165255     3.54   0.001     .0257338    .0911028
         624  |   .0216808   .0061689     3.51   0.001     .0094797    .0338818
         634  |  -.0256095     .01066    -2.40   0.018    -.0466931    -.004526
         642  |   .0467925   .0311374     1.50   0.135    -.0147918    .1083768
         643  |  -.0965682   .0292089    -3.31   0.001    -.1543383   -.0387982
         646  |  -.0201997   .0094166    -2.15   0.034    -.0388242   -.0015753
         659  |  -.0322452   .0121225    -2.66   0.009    -.0562213   -.0082691
         662  |  -.0329118   .0107377    -3.07   0.003    -.0541491   -.0116746
         670  |  -.0400167   .0126611    -3.16   0.002     -.065058   -.0149753
         678  |  -.0297174   .0129921    -2.29   0.024    -.0554136   -.0040213
         682  |  -.0592313   .0119321    -4.96   0.000    -.0828308   -.0356317
         686  |   .0287653   .0091299     3.15   0.002      .010708    .0468226
         688  |  -.0459066   .0175387    -2.62   0.010    -.0805952   -.0112181
         690  |  -.0018775   .0092201    -0.20   0.839    -.0201132    .0163582
         694  |   .0042512   .0101443     0.42   0.676    -.0158125    .0243149
         703  |  -.0628526   .0402321    -1.56   0.121    -.1424247    .0167195
         704  |  -.0671936   .0230149    -2.92   0.004    -.1127132   -.0216741
         705  |   -.132383   .0316638    -4.18   0.000    -.1950084   -.0697577
         706  |  -.0511895   .0142344    -3.60   0.000    -.0793428   -.0230363
         729  |  -.0153749   .0106479    -1.44   0.151    -.0364346    .0056849
         740  |  -.0511522     .01633    -3.13   0.002    -.0834501   -.0188544
         748  |  -.0065058   .0085824    -0.76   0.450    -.0234803    .0104686
         760  |  -.0320836   .0134836    -2.38   0.019    -.0587519   -.0054154
         762  |  -.1561519   .0348976    -4.47   0.000    -.2251732   -.0871305
         768  |   .0287653   .0091299     3.15   0.002      .010708    .0468226
         776  |  -.0446385   .0112969    -3.95   0.000    -.0669817   -.0222952
         780  |  -.0724343   .0208381    -3.48   0.001    -.1136484   -.0312201
         784  |  -.0180426   .0088754    -2.03   0.044    -.0355967   -.0004885
         788  |   .0246403   .0142349     1.73   0.086     -.003514    .0527945
         795  |  -.2933648   .0419492    -6.99   0.000    -.3763329   -.2103966
         798  |  -.0364932   .0105565    -3.46   0.001    -.0573721   -.0156142
         800  |  -.0153789   .0089357    -1.72   0.088    -.0330522    .0022943
         804  |  -.0142777   .0311615    -0.46   0.648    -.0759097    .0473543
         807  |   .1085127   .0390383     2.78   0.006     .0313017    .1857237
         818  |  -.0151673   .0320573    -0.47   0.637    -.0785711    .0482365
         834  |  -.0190867   .0090118    -2.12   0.036    -.0369105   -.0012629
         854  |  -.0019674   .0132395    -0.15   0.882    -.0281528     .024218
         860  |  -.1544465   .0335335    -4.61   0.000      -.22077    -.088123
         882  |  -.0446385   .0112969    -3.95   0.000    -.0669817   -.0222952
         887  |  -.0568504   .0121097    -4.69   0.000    -.0808012   -.0328995
         894  |          0  (omitted)
              |
EU_membership |  -.7934639   .1768471    -4.49   0.000    -1.143237    -.443691
US_membership |  -1.311655   .3318007    -3.95   0.000    -1.967899   -.6554109
wto_members~p |  -.4087638   .1800103    -2.27   0.025    -.7647928   -.0527347
        _cons |   59.46973   25.49782     2.33   0.021     9.039482       109.9
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third##c.bc_third_standard, absorb(cco
> deN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =      1,113
Absorbing 2 HDFE groups                           F(   2,    137) =       1.87
Statistics robust to heteroskedasticity           Prob > F        =     0.1579
                                                  R-squared       =     0.5331
                                                  Adj R-squared   =     0.4464
                                                  Within R-sq.    =     0.0070
Number of clusters (ccodeN)  =        138         Root MSE        =     0.9773

                                (Std. err. adjusted for 138 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |  -.3641844   .2119517    -1.72   0.088    -.7833044    .0549356
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |   .0724137   .2116495     0.34   0.733    -.3461087    .4909361
              |
        _cons |   2.612662   .0296623    88.08   0.000     2.554007    2.671318
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       138         138           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third##c.bc_third_standard wto_members
> hip EU_membership US_membership , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F(   5,    134) =       6.90
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5490
                                                  Adj R-squared   =     0.4644
                                                  Within R-sq.    =     0.0493
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9610

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |  -.4121984   .2028466    -2.03   0.044    -.8133936   -.0110033
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |   .0345093   .1940161     0.18   0.859    -.3492209    .4182394
              |
wto_members~p |  -.3794346   .1322597    -2.87   0.005    -.6410213   -.1178479
EU_membership |  -.7255705   .1530196    -4.74   0.000    -1.028217   -.4229244
US_membership |  -1.121357   .4969821    -2.26   0.026    -2.104301   -.1384131
        _cons |   2.963031   .0929813    31.87   0.000      2.77913    3.146932
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third##c.bc_third_standard c.year##cco
> deN wto_membership EU_membership US_membership , absorb(ccodeN year) vce(clust
> er ccodeN)
(dropped 13 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 158bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 234bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 262bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 430bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 434bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 462bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 520bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 634bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 678bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 706bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 760bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 887bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =      1,103
Absorbing 2 HDFE groups                           F( 137,    134) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6200
                                                  Adj R-squared   =     0.4739
                                                  Within R-sq.    =     0.1989
Number of clusters (ccodeN)  =        135         Root MSE        =     0.9524

                                (Std. err. adjusted for 135 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |  -.6723251   .2320773    -2.90   0.004    -1.131334   -.2133167
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |  -.0170439   .2627714    -0.06   0.948    -.5367599     .502672
              |
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         158  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         234  |          0  (omitted)
         242  |          0  (omitted)
         262  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         430  |          0  (omitted)
         434  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         462  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         520  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         634  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         678  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         706  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         760  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         887  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2831609   .0784843    -3.61   0.000    -.4383892   -.1279326
          12  |  -.0486134   .0154287    -3.15   0.002    -.0791287   -.0180982
          24  |  -.0066761   .0074503    -0.90   0.372    -.0214116    .0080593
          28  |  -.0231497   .0130446    -1.77   0.078    -.0489496    .0026502
          31  |  -.1463896   .0402306    -3.64   0.000    -.2259588   -.0668204
          44  |  -.0951592    .017034    -5.59   0.000    -.1288496   -.0614688
          48  |  -.0258919   .0127016    -2.04   0.043    -.0510135   -.0007702
          50  |    .012857   .0466019     0.28   0.783    -.0793134    .1050274
          51  |  -.0385337   .0292166    -1.32   0.189    -.0963191    .0192517
          52  |  -.0314842    .020535    -1.53   0.128    -.0720989    .0091305
          64  |   -.050596   .0277847    -1.82   0.071    -.1055492    .0043572
          68  |  -.1238908   .0123417   -10.04   0.000    -.1483006   -.0994811
          70  |  -.0948154   .0389223    -2.44   0.016    -.1717969    -.017834
          72  |  -.0004969   .0093343    -0.05   0.958    -.0189585    .0179647
          84  |  -.0615824   .0212211    -2.90   0.004     -.103554   -.0196108
          90  |   .0322132   .0077209     4.17   0.000     .0169427    .0474837
          96  |  -.0822769   .0380611    -2.16   0.032     -.157555   -.0069987
         100  |   .0128959    .028201     0.46   0.648    -.0428808    .0686726
         108  |  -.0217636   .0098225    -2.22   0.028    -.0411906   -.0023365
         112  |  -.0481795   .0310503    -1.55   0.123    -.1095915    .0132325
         120  |   .0983789   .0243082     4.05   0.000     .0503016    .1464562
         132  |   .0185757   .0099367     1.87   0.064    -.0010774    .0382287
         140  |   .0796938   .0141264     5.64   0.000     .0517542    .1076335
         144  |  -.0050471   .0349973    -0.14   0.886    -.0742657    .0641716
         148  |   .0727281   .0245519     2.96   0.004     .0241687    .1212875
         156  |   -.158679   .0508903    -3.12   0.002    -.2593312   -.0580269
         158  |   .0541251   .0456115     1.19   0.237    -.0360865    .1443367
         174  |  -.0215033   .0095641    -2.25   0.026    -.0404194   -.0025873
         178  |   .0709244   .0148513     4.78   0.000     .0415512    .1002977
         180  |  -.0405637   .0119057    -3.41   0.001    -.0641111   -.0170163
         191  |   .2319855   .0553975     4.19   0.000      .122419     .341552
         196  |  -1.265566   .4515921    -2.80   0.006    -2.158736   -.3723951
         200  |  -.8141199   .1965902    -4.14   0.000    -1.202941   -.4252988
         204  |   .0259572   .0095919     2.71   0.008     .0069862    .0449283
         212  |   .0045772    .014177     0.32   0.747    -.0234624    .0326169
         218  |  -.0832589    .017556    -4.74   0.000    -.1179817   -.0485361
         222  |  -.0722113   .0238498    -3.03   0.003     -.119382   -.0250407
         226  |   .0709244   .0148513     4.78   0.000     .0415512    .1002977
         231  |  -.0338437   .0107015    -3.16   0.002    -.0550094   -.0126781
         232  |   .1474182   .0292017     5.05   0.000     .0896624    .2051741
         233  |   .0160405   .0269128     0.60   0.552    -.0371884    .0692694
         234  |   .0410267   .0361221     1.14   0.258    -.0304166    .1124699
         242  |  -.0420657   .0103344    -4.07   0.000    -.0625053   -.0216261
         262  |   -.038115   .0057614    -6.62   0.000      -.04951     -.02672
         266  |   .0709244   .0148513     4.78   0.000     .0415512    .1002977
         268  |  -.0137711   .0301042    -0.46   0.648     -.073312    .0457698
         270  |   .0024596   .0104967     0.23   0.815    -.0183009    .0232202
         275  |   .1913003   .1012903     1.89   0.061    -.0090342    .3916348
         288  |   .0274104   .0214128     1.28   0.203    -.0149405    .0697612
         296  |  -.0389756   .0111056    -3.51   0.001    -.0609406   -.0170106
         308  |  -.0039682   .0141279    -0.28   0.779    -.0319107    .0239743
         324  |   .0588429   .0073891     7.96   0.000     .0442287    .0734572
         328  |  -.0461087   .0157992    -2.92   0.004    -.0773568   -.0148606
         332  |  -.0466197   .0162193    -2.87   0.005    -.0786986   -.0145408
         340  |  -.0746851   .0259404    -2.88   0.005    -.1259908   -.0233795
         347  |          0  (omitted)
         348  |   .1510767   .0371804     4.06   0.000     .0775404    .2246131
         364  |  -.0209948   .0217341    -0.97   0.336    -.0639811    .0219915
         368  |  -.0562599   .0121389    -4.63   0.000    -.0802686   -.0322512
         372  |   .0789179   .0428077     1.84   0.067    -.0057482     .163584
         384  |  -.0364494     .02262    -1.61   0.109    -.0811878     .008289
         398  |  -.1387741   .0332315    -4.18   0.000    -.2045003    -.073048
         400  |   -.083139   .0159076    -5.23   0.000    -.1146015   -.0516765
         404  |  -.0166135   .0091702    -1.81   0.072    -.0347506    .0015236
         414  |  -.0678677   .0135886    -4.99   0.000    -.0947436   -.0409918
         417  |  -.0996049   .0298894    -3.33   0.001     -.158721   -.0404889
         418  |   -.202901   .0309479    -6.56   0.000    -.2641105   -.1416915
         422  |  -.0887093   .0148922    -5.96   0.000    -.1181635   -.0592551
         426  |  -.0055382    .008825    -0.63   0.531    -.0229925    .0119161
         428  |   .0288933   .0306483     0.94   0.348    -.0317238    .0895104
         430  |   .0024596   .0104967     0.23   0.815    -.0183009    .0232202
         434  |  -.0501752   .0114319    -4.39   0.000    -.0727855    -.027565
         440  |   .0162917    .027683     0.59   0.557    -.0384604    .0710437
         442  |   .0520095    .027183     1.91   0.058    -.0017538    .1057728
         450  |   -.000626   .0260513    -0.02   0.981     -.052151     .050899
         458  |  -.0349652   .0276019    -1.27   0.207     -.089557    .0196265
         462  |  -.1172156   .0321397    -3.65   0.000    -.1807823   -.0536489
         466  |   .0224648   .0085391     2.63   0.010     .0055759    .0393538
         478  |   -.039031   .0099315    -3.93   0.000    -.0586739   -.0193882
         480  |   .0670038   .0173406     3.86   0.000     .0327071    .1013004
         498  |   -.005526   .0283517    -0.19   0.846    -.0616007    .0505487
         499  |  -.0016277   .0818911    -0.02   0.984     -.163594    .1603386
         504  |  -.0517022   .0146058    -3.54   0.001    -.0805899   -.0228144
         508  |    .027053   .0148871     1.82   0.071     -.002391    .0564971
         512  |  -.0609255   .0162455    -3.75   0.000    -.0930562   -.0287949
         516  |  -.0587609    .032161    -1.83   0.070    -.1223697    .0048479
         520  |  -1.212459   .2250285    -5.39   0.000    -1.657526   -.7673919
         524  |  -.0076374   .0297515    -0.26   0.798    -.0664806    .0512058
         548  |  -.0707807   .0137686    -5.14   0.000    -.0980126   -.0435489
         562  |    -.00397   .0134857    -0.29   0.769    -.0306425    .0227024
         566  |   .0212282   .0247205     0.86   0.392    -.0276646     .070121
         591  |  -.0168776   .0270617    -0.62   0.534    -.0704009    .0366457
         598  |   .0369313   .0079032     4.67   0.000     .0213002    .0525625
         600  |   .0825562   .0181217     4.56   0.000     .0467147    .1183977
         624  |   .0212204   .0062578     3.39   0.001     .0088435    .0335973
         634  |  -.0270905   .0109688    -2.47   0.015    -.0487849    -.005396
         642  |   .0177818   .0298588     0.60   0.552    -.0412736    .0768372
         643  |  -.0597468   .0312652    -1.91   0.058    -.1215838    .0020902
         646  |  -.0217636   .0098225    -2.22   0.028    -.0411906   -.0023365
         659  |  -.0190677   .0136258    -1.40   0.164    -.0460172    .0078818
         662  |  -.0036797   .0147237    -0.25   0.803    -.0328006    .0254413
         670  |   -.010032   .0159054    -0.63   0.529      -.04149     .021426
         678  |  -.0317326   .0132614    -2.39   0.018    -.0579614   -.0055039
         682  |  -.0623076   .0120769    -5.16   0.000    -.0861935   -.0384216
         686  |   .0498056   .0182928     2.72   0.007     .0136256    .0859856
         688  |  -.0499143   .0184198    -2.71   0.008    -.0863454   -.0134832
         690  |  -.0036138   .0095808    -0.38   0.707     -.022563    .0153353
         694  |   .0024596   .0104967     0.23   0.815    -.0183009    .0232202
         703  |  -.0582928   .0406691    -1.43   0.154    -.1387292    .0221436
         704  |  -.0877139   .0397364    -2.21   0.029    -.1663056   -.0091223
         705  |  -.1338463   .0327474    -4.09   0.000    -.1986149   -.0690777
         706  |  -.0541888   .0142127    -3.81   0.000    -.0822991   -.0260785
         729  |  -.0178276   .0109193    -1.63   0.105    -.0394241    .0037689
         740  |  -.0232941   .0186015    -1.25   0.213    -.0600845    .0134964
         748  |   .0091513   .0107845     0.85   0.398    -.0121786    .0304812
         760  |  -.0347129   .0135667    -2.56   0.012    -.0615455   -.0078804
         762  |  -.1448808    .033836    -4.28   0.000    -.2118025    -.077959
         768  |   .0270845   .0094559     2.86   0.005     .0083825    .0457866
         776  |  -.0472062   .0118156    -4.00   0.000    -.0705753   -.0238371
         780  |   -.076224   .0187117    -4.07   0.000    -.1132324   -.0392156
         784  |  -.0193885   .0090966    -2.13   0.035    -.0373801   -.0013969
         788  |   .0211716   .0143097     1.48   0.141    -.0071305    .0494738
         795  |  -.2958896   .0422891    -7.00   0.000      -.37953   -.2122492
         798  |  -.0389756   .0111056    -3.51   0.001    -.0609406   -.0170106
         800  |  -.0166135   .0091702    -1.81   0.072    -.0347506    .0015236
         804  |  -.0368266   .0294126    -1.25   0.213    -.0949995    .0213463
         807  |   .1096013   .0385789     2.84   0.005     .0332989    .1859037
         818  |   -.077345   .0293997    -2.63   0.010    -.1354925   -.0191975
         834  |  -.0205905   .0091766    -2.24   0.026    -.0387402   -.0024409
         854  |    -.00397   .0134857    -0.29   0.769    -.0306425    .0227024
         860  |  -.1448925   .0328308    -4.41   0.000    -.2098261   -.0799588
         882  |  -.0472062   .0118156    -4.00   0.000    -.0705753   -.0238371
         887  |  -.0609253   .0119684    -5.09   0.000    -.0845968   -.0372538
         894  |          0  (omitted)
              |
wto_members~p |  -.4416176   .1849966    -2.39   0.018    -.8075087   -.0757266
EU_membership |  -.8017724   .1753495    -4.57   0.000    -1.148583   -.4549617
US_membership |  -1.089306   .4787337    -2.28   0.024    -2.036158   -.1424542
        _cons |   61.33241    26.7793     2.29   0.024     8.367612    114.2972
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       135         135           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. 
. *******************************************
. ******* Monadic robustness checks *********
. *******************************************
. 
. * Table 15 
. 
. reghdfe  dv_cr_index_distance  treatment bc, absorb(ccodeN year) vce(cluster c
> codeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   2,    122) =       2.08
Statistics robust to heteroskedasticity           Prob > F        =     0.1294
                                                  R-squared       =     0.5245
                                                  Adj R-squared   =     0.4324
                                                  Within R-sq.    =     0.0108
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9861

                               (Std. err. adjusted for 123 clusters in ccodeN)
------------------------------------------------------------------------------
             |               Robust
dv_cr_inde~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
-------------+----------------------------------------------------------------
   treatment |  -.5663287   .2965938    -1.91   0.059    -1.153466    .0208083
          bc |   .1622461   .2340792     0.69   0.490    -.3011371    .6256293
       _cons |   1.299054   1.836191     0.71   0.481    -2.335869    4.933976
------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment  wto_membership EU_membership US_memb
> ership bc , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   5,    122) =       7.86
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5473
                                                  Adj R-squared   =     0.4576
                                                  Within R-sq.    =     0.0583
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9639

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
    treatment |  -.5986144   .2740224    -2.18   0.031    -1.141069   -.0561597
wto_members~p |  -.4611625   .1290954    -3.57   0.001    -.7167198   -.2056053
EU_membership |  -.7445531   .1542766    -4.83   0.000    -1.049959   -.4391471
US_membership |  -1.219194   .4683168    -2.60   0.010    -2.146274   -.2921145
           bc |   .2549815   .1932222     1.32   0.189    -.1275212    .6374842
        _cons |   .9905942   1.500443     0.66   0.510    -1.979683    3.960871
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment c.year##ccodeN wto_membership EU_memb
> ership US_membership bc,  absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F( 125,    122) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6238
                                                  Adj R-squared   =     0.4718
                                                  Within R-sq.    =     0.2174
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9513

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
    treatment |  -1.105261   .3118853    -3.54   0.001    -1.722669   -.4878526
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         242  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |    -.23104    .076246    -3.03   0.003    -.3819765   -.0801035
          12  |  -.0445276   .0162631    -2.74   0.007     -.076722   -.0123333
          24  |  -.0080727   .0090982    -0.89   0.377    -.0260835    .0099381
          28  |  -.0113342   .0178678    -0.63   0.527    -.0467054    .0240369
          31  |  -.1341393   .0466188    -2.88   0.005    -.2264258   -.0418527
          44  |  -.0895633   .0175846    -5.09   0.000    -.1243738   -.0547528
          48  |  -.0285989    .013286    -2.15   0.033    -.0548999   -.0022979
          50  |   .0465874   .0269376     1.73   0.086    -.0067383    .0999131
          51  |  -.0160579   .0342122    -0.47   0.640    -.0837843    .0516686
          52  |  -.0582733   .0153336    -3.80   0.000    -.0886276    -.027919
          64  |  -.0467321   .0342033    -1.37   0.174     -.114441    .0209768
          68  |  -.1313085    .019084    -6.88   0.000    -.1690871   -.0935298
          70  |   -.076948   .0399857    -1.92   0.057    -.1561036    .0022077
          72  |  -.0019024   .0188407    -0.10   0.920    -.0391994    .0353946
          84  |  -.0856527   .0208336    -4.11   0.000     -.126895   -.0444104
          90  |  -.2226602    .033884    -6.57   0.000    -.2897369   -.1555835
          96  |  -.0886133   .0348604    -2.54   0.012    -.1576229   -.0196036
         100  |   .0144705   .0323397     0.45   0.655    -.0495492    .0784903
         108  |  -.0198566   .0104313    -1.90   0.059    -.0405064    .0007932
         112  |  -.0401745   .0312786    -1.28   0.201    -.1020936    .0217445
         120  |   .0767453   .0151411     5.07   0.000      .046772    .1067187
         132  |   .0360044   .0231805     1.55   0.123    -.0098837    .0818926
         140  |    .084753   .0146987     5.77   0.000     .0556554    .1138507
         144  |   .0242784    .031487     0.77   0.442    -.0380533    .0866101
         148  |   .0611187   .0180888     3.38   0.001     .0253101    .0969272
         156  |  -.1273919   .0500878    -2.54   0.012    -.2265458    -.028238
         174  |  -.0250761   .0109568    -2.29   0.024    -.0467663    -.003386
         178  |   .0760361   .0154198     4.93   0.000      .045511    .1065613
         180  |  -.0388777   .0147368    -2.64   0.009    -.0680507   -.0097048
         191  |   .2663608   .0470148     5.67   0.000     .1732903    .3594312
         196  |  -1.333522   .4795752    -2.78   0.006    -2.282889   -.3841552
         200  |  -.5420683   .1838799    -2.95   0.004     -.906077   -.1780596
         204  |   .0263467   .0117314     2.25   0.027     .0031232    .0495702
         212  |  -.0249611   .0163467    -1.53   0.129     -.057321    .0073989
         218  |  -.0624681   .0220152    -2.84   0.005    -.1060493   -.0188869
         222  |  -.1004796   .0231208    -4.35   0.000    -.1462496   -.0547096
         226  |   .0891479   .0460063     1.94   0.055    -.0019261    .1802219
         231  |  -.0051431   .0112142    -0.46   0.647    -.0273427    .0170564
         232  |   .1500433   .0331779     4.52   0.000     .0843643    .2157222
         233  |   .0431751   .0438188     0.99   0.326    -.0435686    .1299189
         242  |  -.0440916   .0137024    -3.22   0.002    -.0712169   -.0169662
         266  |   .0759896   .0151945     5.00   0.000     .0459106    .1060686
         268  |  -.0026367   .0338979    -0.08   0.938     -.069741    .0644675
         270  |   .0059174   .0116656     0.51   0.613    -.0171757    .0290106
         275  |   .2514009    .098133     2.56   0.012     .0571368    .4456649
         288  |   .0047809   .0122799     0.39   0.698    -.0195285    .0290903
         296  |   -.038772   .0125893    -3.08   0.003    -.0636938   -.0138501
         308  |  -.0334891   .0159145    -2.10   0.037    -.0649933   -.0019848
         324  |   .0776987   .0134413     5.78   0.000     .0510903    .1043071
         328  |    -.05228   .0173218    -3.02   0.003    -.0865703   -.0179898
         332  |  -.0383305   .0166447    -2.30   0.023    -.0712804   -.0053806
         340  |  -.0469156   .0238339    -1.97   0.051    -.0940972     .000266
         347  |          0  (omitted)
         348  |   .1978125   .0362517     5.46   0.000     .1260486    .2695765
         364  |  -.0120784   .0240205    -0.50   0.616    -.0596295    .0354726
         368  |  -.0552007   .0137389    -4.02   0.000    -.0823982   -.0280032
         372  |   .1054446   .0319247     3.30   0.001     .0422466    .1686427
         384  |  -.0586902   .0155691    -3.77   0.000    -.0895107   -.0278697
         398  |  -.1290895   .0363368    -3.55   0.001    -.2010219   -.0571572
         400  |  -.0844444   .0164464    -5.13   0.000    -.1170017   -.0518871
         404  |  -.0165316   .0102378    -1.61   0.109    -.0367984    .0037352
         414  |  -.0813164   .0494817    -1.64   0.103    -.1792703    .0166375
         417  |  -.1009934   .0318414    -3.17   0.002    -.1640267   -.0379601
         418  |  -.1864962   .0297723    -6.26   0.000    -.2454334   -.1275591
         422  |  -.1107412   .0294149    -3.76   0.000     -.168971   -.0525115
         426  |  -.0069257    .013353    -0.52   0.605    -.0333592    .0195078
         428  |   .0206187   .0465105     0.44   0.658    -.0714535    .1126909
         440  |   -.004019   .0453119    -0.09   0.929    -.0937184    .0856803
         442  |   .0551317   .0283947     1.94   0.054    -.0010784    .1113417
         450  |  -.0231067   .0100981    -2.29   0.024     -.043097   -.0031165
         458  |  -.0156844   .0271884    -0.58   0.565    -.0695066    .0381378
         466  |   .0201172   .0113716     1.77   0.079    -.0023939    .0426283
         478  |   -.038966   .0103979    -3.75   0.000    -.0595496   -.0183823
         480  |   .0449271   .0196518     2.29   0.024     .0060245    .0838298
         498  |    .024796   .0392473     0.63   0.529    -.0528979    .1024899
         499  |  -.0374854   .0885877    -0.42   0.673    -.2128536    .1378829
         504  |   -.054902   .0164385    -3.34   0.001    -.0874437   -.0223604
         508  |    .024475   .0191718     1.28   0.204    -.0134775    .0624275
         512  |  -.0556782   .0175828    -3.17   0.002    -.0904851   -.0208714
         516  |  -.0629392   .0339982    -1.85   0.067    -.1302421    .0043637
         524  |   .0021087   .0276119     0.08   0.939    -.0525519    .0567693
         548  |  -.0640209   .0142852    -4.48   0.000    -.0922999    -.035742
         562  |  -.0036028   .0136206    -0.26   0.792    -.0305661    .0233606
         566  |  -.0006637   .0162587    -0.04   0.968    -.0328495    .0315221
         591  |   .0089146   .0273122     0.33   0.745    -.0451526    .0629817
         598  |   .0338788   .0109438     3.10   0.002     .0122145     .055543
         600  |   .0535931   .0205274     2.61   0.010      .012957    .0942292
         624  |   .0227405   .0077784     2.92   0.004     .0073423    .0381387
         642  |    .109779   .0366664     2.99   0.003     .0371942    .1823639
         643  |  -.0909317   .0307183    -2.96   0.004    -.1517417   -.0301217
         646  |  -.0198758   .0102745    -1.93   0.055    -.0402151    .0004635
         659  |  -.0337043   .0188742    -1.79   0.077    -.0710677    .0036591
         662  |  -.0334993   .0155667    -2.15   0.033    -.0643152   -.0026835
         670  |  -.0415781   .0181193    -2.29   0.023     -.077447   -.0057092
         682  |  -.0633909   .0130963    -4.84   0.000    -.0893163   -.0374656
         686  |   .0274908     .01061     2.59   0.011     .0064872    .0484944
         688  |   .1596081   .0708222     2.25   0.026     .0194085    .2998076
         690  |  -.0035205     .01428    -0.25   0.806    -.0317892    .0247481
         694  |   .0058053   .0117439     0.49   0.622     -.017443    .0290537
         703  |  -.0161832   .0388858    -0.42   0.678    -.0931615    .0607951
         704  |  -.0783418   .0270608    -2.90   0.004    -.1319113   -.0247722
         705  |  -.0788737   .0476701    -1.65   0.101    -.1732414     .015494
         729  |  -.0164896   .0136932    -1.20   0.231    -.0435967    .0106174
         740  |  -.0500875   .0170737    -2.93   0.004    -.0838867   -.0162883
         748  |  -.0084995   .0151774    -0.56   0.576    -.0385446    .0215456
         762  |  -.1330469   .0353576    -3.76   0.000    -.2030408   -.0630531
         768  |   .0274535   .0103415     2.65   0.009     .0069816    .0479255
         776  |  -.0599067   .0158243    -3.79   0.000    -.0912324    -.028581
         780  |  -.0511675   .0225503    -2.27   0.025    -.0958082   -.0065269
         784  |  -.0234424   .0107286    -2.19   0.031    -.0446808   -.0022041
         788  |    .017656   .0173082     1.02   0.310    -.0166072    .0519193
         795  |  -.2800013   .0442179    -6.33   0.000     -.367535   -.1924675
         798  |  -1.210272   .2325283    -5.20   0.000    -1.670586   -.7499594
         800  |  -.0221499   .0166872    -1.33   0.187    -.0551839    .0108841
         804  |  -.0085309   .0308777    -0.28   0.783    -.0696563    .0525945
         807  |   .1061785   .0429023     2.47   0.015     .0212491    .1911079
         818  |  -.0354262   .0281266    -1.26   0.210    -.0911057    .0202532
         834  |  -.0349129   .0153561    -2.27   0.025    -.0653118    -.004514
         854  |  -.0034149   .0154129    -0.22   0.825    -.0339263    .0270965
         860  |  -.1333952   .0352974    -3.78   0.000    -.2032699   -.0635205
         882  |  -.0599355   .0151723    -3.95   0.000    -.0899705   -.0299005
         894  |          0  (omitted)
              |
wto_members~p |  -.3933934   .1652164    -2.38   0.019    -.7204558    -.066331
EU_membership |  -.8004651   .1773677    -4.51   0.000    -1.151582    -.449348
US_membership |  -1.296638    .370977    -3.50   0.001    -2.031024   -.5622521
           bc |  -.0051689   .2591215    -0.02   0.984    -.5181257     .507788
        _cons |   48.00801   31.30389     1.53   0.128    -13.96117    109.9772
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment##c.bc_standard bc, absorb(ccodeN year)
>  vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   3,    122) =       4.01
Statistics robust to heteroskedasticity           Prob > F        =     0.0092
                                                  R-squared       =     0.5283
                                                  Adj R-squared   =     0.4363
                                                  Within R-sq.    =     0.0188
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9827

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |  -.6127481   .2677207    -2.29   0.024    -1.142728   -.0827682
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .5223417   .2292987     2.28   0.024     .0684221    .9762613
              |
           bc |   .1271209   .2449682     0.52   0.605     -.357818    .6120599
        _cons |   1.581367    1.92137     0.82   0.412    -2.222178    5.384911
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment##c.bc_standard wto_membership EU_memb
> ership US_membership bc, absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   6,    122) =       8.44
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5500
                                                  Adj R-squared   =     0.4602
                                                  Within R-sq.    =     0.0639
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9616

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |  -.6394947     .24731    -2.59   0.011    -1.129069   -.1499199
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .4412705   .2119274     2.08   0.039     .0217391    .8608019
              |
wto_members~p |  -.4419355   .1280404    -3.45   0.001    -.6954042   -.1884668
EU_membership |  -.7230919    .156008    -4.63   0.000    -1.031925   -.4142584
US_membership |  -1.311738    .419405    -3.13   0.002    -2.141992   -.4814837
           bc |   .2210888   .2040489     1.08   0.281    -.1828464    .6250239
        _cons |   1.247272   1.582183     0.79   0.432    -1.884818    4.379361
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment##c.bc_standard c.year##ccodeN  EU_mem
> bership US_membership wto_membership bc,  absorb(ccodeN year) vce(cluster ccod
> eN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_standard is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F( 126,    122) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6249
                                                  Adj R-squared   =     0.4726
                                                  Within R-sq.    =     0.2198
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9505

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
  1.treatment |  -1.206123   .2856285    -4.22   0.000    -1.771554   -.6406933
  bc_standard |          0  (omitted)
              |
    treatment#|
c.bc_standard |
           1  |   .5586757   .3412783     1.64   0.104    -.1169189     1.23427
              |
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         242  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2247468    .076446    -2.94   0.004    -.3760792   -.0734143
          12  |  -.0418385   .0170029    -2.46   0.015    -.0754974   -.0081796
          24  |  -.0076925   .0091054    -0.84   0.400    -.0257176    .0103327
          28  |  -.0214191   .0173893    -1.23   0.220    -.0558429    .0130047
          31  |  -.1332556    .046734    -2.85   0.005    -.2257702    -.040741
          44  |  -.0867491   .0184094    -4.71   0.000    -.1231923   -.0503059
          48  |  -.0267798   .0132748    -2.02   0.046    -.0530586   -.0005011
          50  |   .1259287   .0570842     2.21   0.029     .0129248    .2389325
          51  |  -.0116179   .0363094    -0.32   0.750    -.0834959    .0602602
          52  |  -.0555402   .0161001    -3.45   0.001    -.0874119   -.0236685
          64  |  -.0441953   .0347992    -1.27   0.206    -.1130837    .0246932
          68  |   -.130232   .0191159    -6.81   0.000    -.1680739   -.0923901
          70  |  -.0734202   .0393461    -1.87   0.064    -.1513097    .0044694
          72  |  -.0011255   .0191713    -0.06   0.953     -.039077     .036826
          84  |  -.0821841   .0218176    -3.77   0.000    -.1253743   -.0389939
          90  |   -.228007   .0345903    -6.59   0.000     -.296482    -.159532
          96  |   -.095009    .033898    -2.80   0.006    -.1621136   -.0279045
         100  |    .012494   .0321637     0.39   0.698    -.0511773    .0761653
         108  |  -.0178012   .0108112    -1.65   0.102    -.0392031    .0036008
         112  |  -.0412695   .0313254    -1.32   0.190    -.1032812    .0207423
         120  |   .0792933   .0158308     5.01   0.000     .0479546    .1106319
         132  |   .0395369   .0240536     1.64   0.103    -.0080796    .0871534
         140  |   .0871531   .0153159     5.69   0.000     .0568338    .1174723
         144  |   .0704119   .0434302     1.62   0.108    -.0155625    .1563863
         148  |   .0642406   .0190303     3.38   0.001     .0265681     .101913
         156  |  -.1249315   .0501279    -2.49   0.014    -.2241646   -.0256984
         174  |  -.0230402   .0112911    -2.04   0.043    -.0453919   -.0006884
         178  |   .0786593     .01616     4.87   0.000     .0466689    .1106496
         180  |  -.0377835   .0150669    -2.51   0.013    -.0676099    -.007957
         191  |   .2066904   .0632833     3.27   0.001     .0814147     .331966
         196  |  -1.243579   .4939048    -2.52   0.013    -2.221313   -.2658451
         200  |  -.5633751   .1844891    -3.05   0.003    -.9285897   -.1981604
         204  |   .0288777   .0123947     2.33   0.021     .0043412    .0534143
         212  |  -.0230949    .016967    -1.36   0.176    -.0566827    .0104929
         218  |  -.0557205   .0219026    -2.54   0.012    -.0990788   -.0123622
         222  |  -.1023018   .0230396    -4.44   0.000    -.1479111   -.0566926
         226  |   .0956002   .0479872     1.99   0.049     .0006046    .1905957
         231  |  -.0033123   .0113568    -0.29   0.771    -.0257942    .0191696
         232  |   .1506129   .0332275     4.53   0.000     .0848357      .21639
         233  |   .0382624   .0436289     0.88   0.382    -.0481054    .1246302
         242  |  -.0433318   .0137475    -3.15   0.002    -.0705464   -.0161173
         266  |   .0784024   .0158478     4.95   0.000     .0470301    .1097748
         268  |  -.0079068   .0338799    -0.23   0.816    -.0749755    .0591618
         270  |   .0080175   .0120818     0.66   0.508    -.0158996    .0319346
         275  |   .2608531   .0978578     2.67   0.009     .0671339    .4545723
         288  |   .0071701   .0127933     0.56   0.576    -.0181556    .0324958
         296  |  -.0371633   .0127846    -2.91   0.004    -.0624717   -.0118549
         308  |  -.0316605   .0164898    -1.92   0.057    -.0643038    .0009828
         324  |    .078529   .0135758     5.78   0.000     .0516543    .1054037
         328  |   -.049114   .0182637    -2.69   0.008    -.0852689   -.0129592
         332  |  -.0354087    .017098    -2.07   0.040    -.0692559   -.0015616
         340  |  -.0215239   .0284532    -0.76   0.451    -.0778499     .034802
         347  |          0  (omitted)
         348  |   .1653603   .0383692     4.31   0.000     .0894046    .2413161
         364  |  -.0083839   .0248315    -0.34   0.736    -.0575403    .0407725
         368  |  -.0521554   .0145252    -3.59   0.000    -.0809094   -.0234013
         372  |   .0414777   .0458253     0.91   0.367    -.0492381    .1321934
         384  |  -.0564864   .0161392    -3.50   0.001    -.0884355   -.0245373
         398  |   -.133202   .0366147    -3.64   0.000    -.2056845   -.0607195
         400  |   -.083804   .0164057    -5.11   0.000    -.1162808   -.0513273
         404  |  -.0145017   .0107406    -1.35   0.179    -.0357639    .0067605
         414  |   -.084515    .048389    -1.75   0.083     -.180306    .0112759
         417  |   -.107226   .0318545    -3.37   0.001    -.1702852   -.0441668
         418  |    -.18405   .0299576    -6.14   0.000     -.243354    -.124746
         422  |  -.1077465   .0297237    -3.62   0.000    -.1665875   -.0489055
         426  |  -.0066313   .0134836    -0.49   0.624    -.0333235    .0200608
         428  |   .0152672   .0466756     0.33   0.744    -.0771318    .1076661
         440  |  -.0091446   .0454317    -0.20   0.841    -.0990811    .0807919
         442  |   .0555953    .028601     1.94   0.054    -.0010233    .1122139
         450  |   -.021378   .0103666    -2.06   0.041    -.0418997   -.0008563
         458  |  -.0235628   .0270681    -0.87   0.386    -.0771469    .0300213
         466  |   .0208835   .0114297     1.83   0.070    -.0017427    .0435098
         478  |  -.0370261   .0107564    -3.44   0.001    -.0583196   -.0157327
         480  |   .0444887   .0200025     2.22   0.028     .0048918    .0840856
         498  |   .0541171   .0465878     1.16   0.248     -.038108    .1463422
         499  |  -.0630912   .0929947    -0.68   0.499    -.2471835    .1210011
         504  |  -.0524488   .0167084    -3.14   0.002    -.0855247   -.0193729
         508  |   .0251495   .0193191     1.30   0.195    -.0130945    .0633935
         512  |  -.0529792   .0176812    -3.00   0.003    -.0879808   -.0179775
         516  |  -.0643213   .0336627    -1.91   0.058      -.13096    .0023174
         524  |   .0022424   .0276828     0.08   0.936    -.0525584    .0570433
         548  |  -.0618204   .0147605    -4.19   0.000    -.0910403   -.0326006
         562  |  -.0017607   .0141624    -0.12   0.901    -.0297965    .0262751
         566  |   .0018124   .0169333     0.11   0.915    -.0317088    .0353337
         591  |   .0048173   .0272278     0.18   0.860    -.0490827    .0587174
         598  |   .0350974   .0110621     3.17   0.002     .0131989    .0569959
         600  |   .0553098   .0208211     2.66   0.009     .0140924    .0965272
         624  |   .0236033   .0079107     2.98   0.003     .0079432    .0392633
         642  |   .1075222   .0357724     3.01   0.003     .0367071    .1783373
         643  |  -.0940986    .031033    -3.03   0.003    -.1555314   -.0326657
         646  |  -.0179074   .0106193    -1.69   0.094    -.0389293    .0031145
         659  |  -.0315925   .0195477    -1.62   0.109    -.0702892    .0071041
         662  |  -.0317171    .016122    -1.97   0.051    -.0636323     .000198
         670  |  -.0395741   .0187152    -2.11   0.037    -.0766228   -.0025255
         682  |  -.0619573   .0132503    -4.68   0.000    -.0881876    -.035727
         686  |   .0295593   .0111138     2.66   0.009     .0075585    .0515601
         688  |   .1650703   .0711452     2.32   0.022     .0242313    .3059094
         690  |  -.0010683   .0148639    -0.07   0.943    -.0304929    .0283563
         694  |   .0073989   .0120018     0.62   0.539    -.0163599    .0311578
         703  |  -.0485569    .041026    -1.18   0.239    -.1297721    .0326582
         704  |  -.0577875    .026518    -2.18   0.031    -.1102826   -.0052924
         705  |  -.0808856   .0473336    -1.71   0.090    -.1745872    .0128161
         729  |  -.0140422     .01442    -0.97   0.332     -.042588    .0145035
         740  |  -.0477962   .0176379    -2.71   0.008    -.0827121   -.0128803
         748  |  -.0079697   .0153846    -0.52   0.605     -.038425    .0224856
         762  |  -.1392861    .035617    -3.91   0.000    -.2097935   -.0687788
         768  |   .0293538   .0107863     2.72   0.007     .0080011    .0507064
         776  |   -.057292   .0164632    -3.48   0.001    -.0898825   -.0247015
         780  |   -.065031   .0214658    -3.03   0.003    -.1075247   -.0225373
         784  |   -.023676   .0106707    -2.22   0.028    -.0447997   -.0025522
         788  |   .0200724   .0177285     1.13   0.260    -.0150229    .0551677
         795  |  -.2791499   .0442009    -6.32   0.000    -.3666501   -.1916498
         798  |  -1.207616   .2309747    -5.23   0.000    -1.664854    -.750379
         800  |  -.0193889   .0173848    -1.12   0.267    -.0538039    .0150261
         804  |  -.0016896   .0323397    -0.05   0.958    -.0657092      .06233
         807  |   .1039246   .0430707     2.41   0.017     .0186619    .1891873
         818  |  -.0026574   .0359113    -0.07   0.941    -.0737475    .0684327
         834  |  -.0314319   .0160699    -1.96   0.053    -.0632439      .00038
         854  |  -.0007236   .0161302    -0.04   0.964    -.0326551    .0312078
         860  |  -.1383745   .0354856    -3.90   0.000    -.2086217   -.0681272
         882  |  -.0574513   .0157591    -3.65   0.000    -.0886479   -.0262547
         894  |          0  (omitted)
              |
EU_membership |  -.7958557    .178574    -4.46   0.000    -1.149361   -.4423506
US_membership |  -1.345417    .339597    -3.96   0.000    -2.017683   -.6731505
wto_members~p |  -.3624535   .1719733    -2.11   0.037    -.7028918   -.0220153
           bc |  -.0285318   .2667905    -0.11   0.915    -.5566702    .4996067
        _cons |   46.88505   31.78772     1.47   0.143    -16.04191     109.812
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment_third bc, absorb(ccodeN year) vce(clu
> ster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   2,    122) =       1.85
Statistics robust to heteroskedasticity           Prob > F        =     0.1609
                                                  R-squared       =     0.5228
                                                  Adj R-squared   =     0.4304
                                                  Within R-sq.    =     0.0074
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9878

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |  -.3688768   .2061879    -1.79   0.076    -.7770463    .0392928
           bc |   .1675155   .2229568     0.75   0.454    -.2738497    .6088808
        _cons |   1.260848   1.748041     0.72   0.472    -2.199574    4.721269
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment_third  wto_membership EU_membership U
> S_membership bc , absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   5,    122) =       7.59
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5458
                                                  Adj R-squared   =     0.4558
                                                  Within R-sq.    =     0.0552
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9655

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |  -.4071511   .1922556    -2.12   0.036    -.7877402    -.026562
wto_members~p |  -.4616841   .1353489    -3.41   0.001    -.7296207   -.1937475
EU_membership |  -.7515053   .1546548    -4.86   0.000     -1.05766   -.4453506
US_membership |  -1.174344   .4948261    -2.37   0.019    -2.153902   -.1947866
           bc |   .2617826   .1820186     1.44   0.153    -.0985414    .6221066
        _cons |   .9446561   1.411065     0.67   0.504    -1.848688       3.738
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment_third c.year##ccodeN wto_membership E
> U_membership US_membership bc,  absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F( 125,    122) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6211
                                                  Adj R-squared   =     0.4680
                                                  Within R-sq.    =     0.2118
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9547

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
treatment_t~d |  -.6668877   .2285148    -2.92   0.004    -1.119256   -.2145198
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         242  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2314672   .0751167    -3.08   0.003    -.3801682   -.0827661
          12  |  -.0490076   .0171404    -2.86   0.005    -.0829389   -.0150764
          24  |  -.0106871   .0092854    -1.15   0.252    -.0290684    .0076942
          28  |   -.024239   .0182818    -1.33   0.187    -.0604298    .0119517
          31  |  -.1387614   .0472981    -2.93   0.004    -.2323927     -.04513
          44  |  -.0919541   .0183717    -5.01   0.000    -.1283228   -.0555853
          48  |  -.0328398   .0149348    -2.20   0.030    -.0624046   -.0032749
          50  |   .0160565   .0282706     0.57   0.571    -.0399081     .072021
          51  |  -.0336234   .0344336    -0.98   0.331    -.1017881    .0345413
          52  |  -.0292273   .0186558    -1.57   0.120    -.0661583    .0077037
          64  |  -.0486277   .0334137    -1.46   0.148    -.1147735    .0175181
          68  |  -.1331403   .0205705    -6.47   0.000    -.1738616    -.092419
          70  |  -.0814471   .0406209    -2.01   0.047    -.1618602    -.001034
          72  |  -.0028948   .0191493    -0.15   0.880    -.0408027    .0350132
          84  |  -.0555154    .023792    -2.33   0.021    -.1026141   -.0084167
          90  |  -.2299872   .0350665    -6.56   0.000    -.2994048   -.1605695
          96  |  -.0797456    .039384    -2.02   0.045    -.1577102   -.0017811
         100  |   .0130579   .0323302     0.40   0.687     -.050943    .0770589
         108  |    -.02022   .0108828    -1.86   0.066    -.0417636    .0013235
         112  |   -.039151   .0320225    -1.22   0.224    -.1025428    .0242407
         120  |    .101765   .0178512     5.70   0.000     .0664268    .1371031
         132  |   .0321505   .0235987     1.36   0.176    -.0145654    .0788664
         140  |   .0825211   .0155829     5.30   0.000     .0516732    .1133689
         144  |  -.0088074   .0313994    -0.28   0.780    -.0709657    .0533509
         148  |   .0766231   .0193109     3.97   0.000     .0383953    .1148509
         156  |  -.1379754   .0505192    -2.73   0.007    -.2379831   -.0379677
         174  |  -.0275119   .0115124    -2.39   0.018    -.0503019   -.0047219
         178  |   .0738022   .0162943     4.53   0.000     .0415461    .1060583
         180  |  -.0395394   .0156631    -2.52   0.013    -.0705461   -.0085327
         191  |   .2250014   .0524338     4.29   0.000     .1212034    .3287993
         196  |  -1.355159   .4821868    -2.81   0.006    -2.309696   -.4006215
         200  |   -.611228   .1817318    -3.36   0.001    -.9709843   -.2514718
         204  |   .0257318    .011828     2.18   0.032     .0023172    .0491465
         212  |   .0046191   .0198556     0.23   0.816     -.034687    .0439252
         218  |  -.0871774   .0207758    -4.20   0.000    -.1283051   -.0460497
         222  |  -.0687485   .0252884    -2.72   0.008    -.1188093   -.0186876
         226  |   .0862495   .0472127     1.83   0.070    -.0072128    .1797118
         231  |  -.0075027     .01158    -0.65   0.518    -.0304265    .0154211
         232  |   .1407028   .0327282     4.30   0.000     .0759142    .2054915
         233  |   .0399191   .0444045     0.90   0.370     -.047984    .1278222
         242  |  -.0449425   .0143394    -3.13   0.002    -.0733288   -.0165563
         266  |   .0737059   .0161442     4.57   0.000     .0417469    .1056649
         268  |  -.0036236   .0346578    -0.10   0.917    -.0722322     .064985
         270  |   .0053884   .0120113     0.45   0.655    -.0183891     .029166
         275  |   .2256027   .1037473     2.17   0.032     .0202245    .4309808
         288  |   .0312862   .0144667     2.16   0.033     .0026479    .0599244
         296  |  -.0404503   .0133009    -3.04   0.003    -.0667806   -.0141199
         308  |   -.003971    .019226    -0.21   0.837    -.0420308    .0340889
         324  |    .071104   .0138752     5.12   0.000     .0436366    .0985714
         328  |  -.0420192   .0182084    -2.31   0.023    -.0780646   -.0059737
         332  |  -.0459901   .0176521    -2.61   0.010    -.0809342   -.0110459
         340  |  -.0706237    .024975    -2.83   0.005    -.1200643   -.0211831
         347  |          0  (omitted)
         348  |   .1549998   .0349119     4.44   0.000     .0858883    .2241113
         364  |  -.0148083   .0242598    -0.61   0.543    -.0628331    .0332165
         368  |  -.0580211   .0138283    -4.20   0.000    -.0853956   -.0306466
         372  |   .0776706   .0325753     2.38   0.019     .0131846    .1421566
         384  |  -.0335602   .0181203    -1.85   0.066    -.0694312    .0023109
         398  |  -.1263787   .0359331    -3.52   0.001    -.1975119   -.0552456
         400  |  -.0861981   .0168945    -5.10   0.000    -.1196424   -.0527539
         404  |   -.016796   .0103756    -1.62   0.108    -.0373356    .0037436
         414  |   -.081189   .0517586    -1.57   0.119    -.1836502    .0212723
         417  |  -.0967883   .0313028    -3.09   0.002    -.1587554   -.0348212
         418  |  -.1911201    .030318    -6.30   0.000    -.2511376   -.1311025
         422  |  -.1110274   .0302454    -3.67   0.000    -.1709011   -.0511537
         426  |   -.007822   .0135457    -0.58   0.565     -.034637    .0189931
         428  |   .0179139   .0472227     0.38   0.705    -.0755682    .1113961
         440  |  -.0071253   .0462202    -0.15   0.878    -.0986229    .0843722
         442  |   .0528388   .0297066     1.78   0.078    -.0059684     .111646
         450  |   .0006912   .0121646     0.06   0.955    -.0233898    .0247722
         458  |  -.0307253   .0292096    -1.05   0.295    -.0885487     .027098
         466  |   .0205593   .0114835     1.79   0.076    -.0021734    .0432921
         478  |  -.0393683   .0108875    -3.62   0.000    -.0609212   -.0178155
         480  |   .0705474    .021049     3.35   0.001     .0288788     .112216
         498  |  -.0022366   .0398924    -0.06   0.955    -.0812076    .0767345
         499  |  -.0170484   .0823399    -0.21   0.836    -.1800484    .1459516
         504  |  -.0570679   .0168224    -3.39   0.001    -.0903695   -.0237662
         508  |   .0241412   .0193905     1.25   0.216    -.0142442    .0625266
         512  |  -.0608911   .0199142    -3.06   0.003    -.1003133   -.0214688
         516  |  -.0691923   .0342386    -2.02   0.045     -.136971   -.0014136
         524  |  -.0017719   .0271287    -0.07   0.948     -.055476    .0519321
         548  |  -.0682602   .0147756    -4.62   0.000      -.09751   -.0390105
         562  |  -.0043364   .0141649    -0.31   0.760    -.0323772    .0237044
         566  |      .0288   .0185105     1.56   0.122    -.0078434    .0654434
         591  |  -.0136248   .0293549    -0.46   0.643    -.0717358    .0444862
         598  |    .033992   .0119177     2.85   0.005     .0103997    .0575844
         600  |   .0785163   .0226167     3.47   0.001     .0337443    .1232882
         624  |   .0228856   .0078891     2.90   0.004     .0072683    .0385029
         642  |   .0688683   .0368933     1.87   0.064    -.0041658    .1419023
         643  |  -.0597415   .0307496    -1.94   0.054    -.1206133    .0011304
         646  |  -.0202599   .0107507    -1.88   0.062    -.0415419    .0010222
         659  |  -.0204284   .0199745    -1.02   0.308    -.0599699    .0191131
         662  |  -.0039922   .0189018    -0.21   0.833    -.0414102    .0334257
         670  |  -.0110678   .0213089    -0.52   0.604    -.0532509    .0311153
         682  |  -.0657412   .0135443    -4.85   0.000    -.0925536   -.0389289
         686  |   .0504866   .0127827     3.95   0.000     .0251819    .0757913
         688  |   .1546175   .0704983     2.19   0.030     .0150592    .2941759
         690  |  -.0041117   .0143975    -0.29   0.776     -.032613    .0243896
         694  |   .0051565   .0122773     0.42   0.675    -.0191477    .0294607
         703  |  -.0508408   .0406129    -1.25   0.213     -.131238    .0295564
         704  |  -.0816124   .0359074    -2.27   0.025    -.1526948   -.0105301
         705  |  -.0838168   .0495816    -1.69   0.093    -.1819684    .0143349
         729  |  -.0177402    .014005    -1.27   0.208    -.0454644     .009984
         740  |  -.0211651   .0196658    -1.08   0.284    -.0600954    .0177652
         748  |   .0070447   .0166848     0.42   0.674    -.0259844    .0400739
         762  |  -.1296581   .0347999    -3.73   0.000     -.198548   -.0607681
         768  |   .0269276   .0105316     2.56   0.012     .0060793    .0477758
         776  |  -.0640112   .0162481    -3.94   0.000     -.096176   -.0318464
         780  |  -.0736074   .0208041    -3.54   0.001    -.1147912   -.0324235
         784  |  -.0250555   .0110204    -2.27   0.025    -.0468714   -.0032395
         788  |   .0156171   .0174373     0.90   0.372    -.0189018     .050136
         795  |  -.2821263   .0448086    -6.30   0.000    -.3708294   -.1934232
         798  |  -1.195244   .2330315    -5.13   0.000    -1.656553   -.7339353
         800  |  -.0254202   .0167039    -1.52   0.131    -.0584873    .0076468
         804  |  -.0289772    .030978    -0.94   0.351    -.0903012    .0323468
         807  |   .1067158   .0422878     2.52   0.013     .0230029    .1904287
         818  |   -.070582   .0271242    -2.60   0.010    -.1242771   -.0168869
         834  |  -.0401437   .0155018    -2.59   0.011     -.070831   -.0094564
         854  |  -.0039476   .0156804    -0.25   0.802    -.0349885    .0270934
         860  |  -.1305141   .0349847    -3.73   0.000    -.1997698   -.0612584
         882  |  -.0640709   .0156159    -4.10   0.000    -.0949842   -.0331576
         894  |          0  (omitted)
              |
wto_members~p |  -.4099665   .1715601    -2.39   0.018    -.7495867   -.0703462
EU_membership |  -.8043802   .1768287    -4.55   0.000     -1.15443   -.4543302
US_membership |  -1.095305   .4841924    -2.26   0.025    -2.053812   -.1367977
           bc |  -.0106977   .2676817    -0.04   0.968    -.5406005     .519205
        _cons |   52.99826   33.41157     1.59   0.115    -13.14329    119.1398
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance treatment_third##c.bc_third_standard bc, absorb(
> ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   3,    122) =       1.25
Statistics robust to heteroskedasticity           Prob > F        =     0.2950
                                                  R-squared       =     0.5229
                                                  Adj R-squared   =     0.4298
                                                  Within R-sq.    =     0.0076
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9883

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |   -.352679   .2143909    -1.65   0.103    -.7770871    .0717292
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |   .0525854   .2128131     0.25   0.805    -.3686993    .4738701
              |
           bc |   .1590263   .2259275     0.70   0.483    -.2882198    .6062725
        _cons |   1.328006   1.771396     0.75   0.455    -2.178649    4.834661
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment_third##c.bc_third_standard wto_member
> ship EU_membership US_membership bc, absorb(ccodeN year) vce(cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F(   6,    122) =       6.39
Statistics robust to heteroskedasticity           Prob > F        =     0.0000
                                                  R-squared       =     0.5458
                                                  Adj R-squared   =     0.4552
                                                  Within R-sq.    =     0.0552
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9661

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |  -.4042348   .2016068    -2.01   0.047    -.8033357    -.005134
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |   .0093218   .1936299     0.05   0.962    -.3739878    .3926315
              |
wto_members~p |  -.4617148   .1353588    -3.41   0.001     -.729671   -.1937586
EU_membership |  -.7507937   .1573339    -4.77   0.000    -1.062252   -.4393356
US_membership |  -1.175653    .495078    -2.37   0.019    -2.155709   -.1955961
           bc |   .2602471   .1828056     1.42   0.157    -.1016348    .6221291
        _cons |   .9566799   1.415951     0.68   0.501    -1.846337    3.759697
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. reghdfe  dv_cr_index_distance  treatment_third##c.bc_third_standard c.year##cc
> odeN  EU_membership US_membership wto_membership bc,  absorb(ccodeN year) vce(
> cluster ccodeN)
(dropped 14 singleton observations)
(MWFE estimator converged in 11 iterations)
note: bc_third_standard is probably collinear with the fixed effects (all partia
> lled-out values are close to zero; tol = 1.0e-09)
note: year is probably collinear with the fixed effects (all partialled-out valu
> es are close to zero; tol = 1.0e-09)
note: 8bn.ccodeN is probably collinear with the fixed effects (all partialled-ou
> t values are close to zero; tol = 1.0e-09)
note: 12bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 24bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 28bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 31bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 44bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 48bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 50bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 51bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 52bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 64bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 68bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 70bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 72bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 84bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 90bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 96bn.ccodeN is probably collinear with the fixed effects (all partialled-o
> ut values are close to zero; tol = 1.0e-09)
note: 100bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 108bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 112bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 120bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 132bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 140bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 144bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 148bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 156bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 174bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 178bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 180bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 191bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 196bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 200bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 204bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 212bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 218bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 222bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 226bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 231bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 232bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 233bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 242bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 266bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 268bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 270bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 275bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 288bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 296bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 308bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 324bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 328bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 332bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 340bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 348bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 364bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 368bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 372bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 384bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 398bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 400bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 404bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 414bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 417bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 418bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 422bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 426bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 428bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 440bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 442bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 450bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 458bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 466bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 478bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 480bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 498bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 499bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 504bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 508bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 512bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 516bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 524bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 548bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 562bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 566bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 591bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 598bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 600bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 624bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 642bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 643bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 646bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 659bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 662bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 670bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 682bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 686bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 688bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 690bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 694bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 703bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 704bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 705bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 729bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 740bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 748bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 762bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 768bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 776bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 780bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 784bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 788bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 795bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 798bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 800bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 804bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 807bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 818bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 834bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 854bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 860bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 882bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 894bn.ccodeN is probably collinear with the fixed effects (all partialled-
> out values are close to zero; tol = 1.0e-09)
note: 347bn.ccodeN#c.year is probably collinear with the fixed effects (all part
> ialled-out values are close to zero; tol = 1.0e-09)
note: 894.ccodeN#c.year omitted because of collinearity
warning: missing F statistic; dropped variables due to collinearity or too few c
> lusters

HDFE Linear regression                            Number of obs   =        981
Absorbing 2 HDFE groups                           F( 126,    122) =          .
Statistics robust to heteroskedasticity           Prob > F        =          .
                                                  R-squared       =     0.6211
                                                  Adj R-squared   =     0.4673
                                                  Within R-sq.    =     0.2119
Number of clusters (ccodeN)  =        123         Root MSE        =     0.9553

                                (Std. err. adjusted for 123 clusters in ccodeN)
-------------------------------------------------------------------------------
              |               Robust
dv_cr_index~e | Coefficient  std. err.      t    P>|t|     [95% conf. interval]
--------------+----------------------------------------------------------------
1.treatment~d |  -.6764655   .2245353    -3.01   0.003    -1.120956   -.2319754
bc_third_st~d |          0  (omitted)
              |
treatment_t~d#|
           c. |
bc_third_st~d |
           1  |  -.0346072   .2669148    -0.13   0.897    -.5629918    .4937774
              |
         year |          0  (omitted)
              |
       ccodeN |
           8  |          0  (omitted)
          12  |          0  (omitted)
          24  |          0  (omitted)
          28  |          0  (omitted)
          31  |          0  (omitted)
          44  |          0  (omitted)
          48  |          0  (omitted)
          50  |          0  (omitted)
          51  |          0  (omitted)
          52  |          0  (omitted)
          64  |          0  (omitted)
          68  |          0  (omitted)
          70  |          0  (omitted)
          72  |          0  (omitted)
          84  |          0  (omitted)
          90  |          0  (omitted)
          96  |          0  (omitted)
         100  |          0  (omitted)
         108  |          0  (omitted)
         112  |          0  (omitted)
         120  |          0  (omitted)
         132  |          0  (omitted)
         140  |          0  (omitted)
         144  |          0  (omitted)
         148  |          0  (omitted)
         156  |          0  (omitted)
         174  |          0  (omitted)
         178  |          0  (omitted)
         180  |          0  (omitted)
         191  |          0  (omitted)
         196  |          0  (omitted)
         200  |          0  (omitted)
         204  |          0  (omitted)
         212  |          0  (omitted)
         218  |          0  (omitted)
         222  |          0  (omitted)
         226  |          0  (omitted)
         231  |          0  (omitted)
         232  |          0  (omitted)
         233  |          0  (omitted)
         242  |          0  (omitted)
         266  |          0  (omitted)
         268  |          0  (omitted)
         270  |          0  (omitted)
         275  |          0  (omitted)
         288  |          0  (omitted)
         296  |          0  (omitted)
         308  |          0  (omitted)
         324  |          0  (omitted)
         328  |          0  (omitted)
         332  |          0  (omitted)
         340  |          0  (omitted)
         347  |          0  (omitted)
         348  |          0  (omitted)
         364  |          0  (omitted)
         368  |          0  (omitted)
         372  |          0  (omitted)
         384  |          0  (omitted)
         398  |          0  (omitted)
         400  |          0  (omitted)
         404  |          0  (omitted)
         414  |          0  (omitted)
         417  |          0  (omitted)
         418  |          0  (omitted)
         422  |          0  (omitted)
         426  |          0  (omitted)
         428  |          0  (omitted)
         440  |          0  (omitted)
         442  |          0  (omitted)
         450  |          0  (omitted)
         458  |          0  (omitted)
         466  |          0  (omitted)
         478  |          0  (omitted)
         480  |          0  (omitted)
         498  |          0  (omitted)
         499  |          0  (omitted)
         504  |          0  (omitted)
         508  |          0  (omitted)
         512  |          0  (omitted)
         516  |          0  (omitted)
         524  |          0  (omitted)
         548  |          0  (omitted)
         562  |          0  (omitted)
         566  |          0  (omitted)
         591  |          0  (omitted)
         598  |          0  (omitted)
         600  |          0  (omitted)
         624  |          0  (omitted)
         642  |          0  (omitted)
         643  |          0  (omitted)
         646  |          0  (omitted)
         659  |          0  (omitted)
         662  |          0  (omitted)
         670  |          0  (omitted)
         682  |          0  (omitted)
         686  |          0  (omitted)
         688  |          0  (omitted)
         690  |          0  (omitted)
         694  |          0  (omitted)
         703  |          0  (omitted)
         704  |          0  (omitted)
         705  |          0  (omitted)
         729  |          0  (omitted)
         740  |          0  (omitted)
         748  |          0  (omitted)
         762  |          0  (omitted)
         768  |          0  (omitted)
         776  |          0  (omitted)
         780  |          0  (omitted)
         784  |          0  (omitted)
         788  |          0  (omitted)
         795  |          0  (omitted)
         798  |          0  (omitted)
         800  |          0  (omitted)
         804  |          0  (omitted)
         807  |          0  (omitted)
         818  |          0  (omitted)
         834  |          0  (omitted)
         854  |          0  (omitted)
         860  |          0  (omitted)
         882  |          0  (omitted)
         894  |          0  (omitted)
              |
ccodeN#c.year |
           8  |  -.2314249    .075102    -3.08   0.003    -.3800968    -.082753
          12  |  -.0488835   .0168457    -2.90   0.004    -.0822312   -.0155358
          24  |  -.0106007   .0092863    -1.14   0.256    -.0289838    .0077825
          28  |  -.0231039   .0165801    -1.39   0.166    -.0559258     .009718
          31  |  -.1383109   .0469325    -2.95   0.004    -.2312186   -.0454033
          44  |  -.0919897   .0184369    -4.99   0.000    -.1284873    -.055492
          48  |  -.0326458   .0147327    -2.22   0.029    -.0618108   -.0034809
          50  |   .0117368   .0495686     0.24   0.813    -.0863893    .1098629
          51  |  -.0333259   .0338884    -0.98   0.327    -.1004114    .0337595
          52  |  -.0270274   .0204062    -1.32   0.188    -.0674235    .0133686
          64  |  -.0483539   .0329828    -1.47   0.145    -.1136467    .0169389
          68  |  -.1329834   .0204193    -6.51   0.000    -.1734055   -.0925614
          70  |  -.0812265   .0402895    -2.02   0.046    -.1609836   -.0014693
          72  |  -.0026156   .0187029    -0.14   0.889    -.0396398    .0344087
          84  |  -.0556199   .0240614    -2.31   0.022     -.103252   -.0079879
          90  |  -.2292118   .0363816    -6.30   0.000    -.3012328   -.1571907
          96  |   -.079718   .0393138    -2.03   0.045    -.1575436   -.0018924
         100  |   .0134594   .0320174     0.42   0.675    -.0499222     .076841
         108  |  -.0203019    .010986    -1.85   0.067    -.0420498    .0014459
         112  |  -.0388446   .0316559    -1.23   0.222    -.1015107    .0238215
         120  |   .0999646   .0257466     3.88   0.000     .0489966    .1509327
         132  |   .0324348   .0231208     1.40   0.163    -.0133351    .0782047
         140  |   .0825066   .0156004     5.29   0.000     .0516241     .113389
         144  |  -.0109112   .0386918    -0.28   0.778    -.0875056    .0656831
         148  |   .0748114   .0275639     2.71   0.008      .020246    .1293769
         156  |   -.137467    .049762    -2.76   0.007    -.2359759    -.038958
         174  |   -.027522   .0115279    -2.39   0.019    -.0503427   -.0047013
         178  |   .0737908    .016311     4.52   0.000     .0415016      .10608
         180  |  -.0397954   .0155338    -2.56   0.012    -.0705462   -.0090446
         191  |   .2296959   .0561837     4.09   0.000     .1184747    .3409171
         196  |  -1.356581   .4847975    -2.80   0.006    -2.316287   -.3968763
         200  |  -.6087609   .1821434    -3.34   0.001    -.9693319   -.2481898
         204  |   .0256638   .0119225     2.15   0.033      .002062    .0492656
         212  |    .005297    .018287     0.29   0.773    -.0309039     .041498
         218  |  -.0869617   .0202006    -4.30   0.000    -.1269508   -.0469727
         222  |  -.0691325   .0260766    -2.65   0.009    -.1207537   -.0175113
         226  |   .0867244   .0459805     1.89   0.062    -.0042985    .1777474
         231  |  -.0074813   .0115762    -0.65   0.519    -.0303975    .0154348
         232  |   .1414056   .0329893     4.29   0.000        .0761    .2067113
         233  |   .0406434   .0440455     0.92   0.358    -.0465491    .1278358
         242  |  -.0448421   .0142701    -3.14   0.002    -.0730912    -.016593
         266  |   .0736678      .0162     4.55   0.000     .0415983    .1057373
         268  |  -.0029001   .0338936    -0.09   0.932    -.0699959    .0641957
         270  |   .0053107   .0120784     0.44   0.661    -.0185996    .0292211
         275  |   .2264378    .103279     2.19   0.030     .0219868    .4308888
         288  |   .0292239   .0239746     1.22   0.225    -.0182361     .076684
         296  |  -.0404558   .0133054    -3.04   0.003    -.0667951   -.0141165
         308  |  -.0033685   .0177628    -0.19   0.850    -.0385317    .0317948
         324  |   .0713301   .0138237     5.16   0.000     .0439648    .0986955
         328  |   -.042243   .0188137    -2.25   0.027    -.0794866   -.0049994
         332  |  -.0459547   .0176744    -2.60   0.010    -.0809429   -.0109665
         340  |  -.0716659   .0280247    -2.56   0.012    -.1271436   -.0161882
         347  |          0  (omitted)
         348  |    .157973   .0370014     4.27   0.000     .0847251    .2312209
         364  |  -.0147499   .0241281    -0.61   0.542    -.0625138     .033014
         368  |  -.0580984   .0139582    -4.16   0.000      -.08573   -.0304667
         372  |   .0823797   .0413897     1.99   0.049     .0004447    .1643148
         384  |  -.0350583   .0237279    -1.48   0.142      -.08203    .0119134
         398  |  -.1259723   .0355665    -3.54   0.001    -.1963798   -.0555649
         400  |  -.0860115    .016705    -5.15   0.000    -.1190806   -.0529423
         404  |  -.0168264   .0104169    -1.62   0.109    -.0374476    .0037948
         414  |  -.0808403   .0521755    -1.55   0.124     -.184127    .0224464
         417  |  -.0964054   .0312008    -3.09   0.002    -.1581705   -.0346402
         418  |  -.1908161   .0299592    -6.37   0.000    -.2501234   -.1315089
         422  |  -.1108794   .0301194    -3.68   0.000    -.1705038   -.0512549
         426  |  -.0076331   .0132906    -0.57   0.567    -.0339431    .0186769
         428  |   .0187958   .0468327     0.40   0.689    -.0739142    .1115058
         440  |  -.0063059   .0459225    -0.14   0.891     -.097214    .0846022
         442  |   .0531026   .0294553     1.80   0.074     -.005207    .1114123
         450  |  -.0022038   .0270872    -0.08   0.935    -.0558257    .0514181
         458  |  -.0298746   .0280906    -1.06   0.290    -.0854829    .0257336
         466  |   .0205461   .0115247     1.78   0.077    -.0022681    .0433603
         478  |  -.0394319   .0109468    -3.60   0.000    -.0611023   -.0177616
         480  |    .071144   .0200165     3.55   0.001     .0315193    .1107686
         498  |  -.0035286   .0431764    -0.08   0.935    -.0890005    .0819433
         499  |  -.0165977   .0827443    -0.20   0.841    -.1803983    .1472029
         504  |  -.0569422   .0165811    -3.43   0.001    -.0897662   -.0241182
         508  |   .0243404   .0191892     1.27   0.207    -.0136466    .0623274
         512  |  -.0606476   .0194983    -3.11   0.002    -.0992465   -.0220488
         516  |  -.0687675   .0342617    -2.01   0.047     -.136592    -.000943
         524  |  -.0013989   .0268633    -0.05   0.959    -.0545774    .0517796
         548  |  -.0682365   .0147701    -4.62   0.000    -.0974753   -.0389977
         562  |  -.0045581   .0142203    -0.32   0.749    -.0327086    .0235923
         566  |   .0271033   .0257148     1.05   0.294    -.0238017    .0780083
         591  |  -.0128593   .0281369    -0.46   0.648    -.0685591    .0428405
         598  |   .0340357   .0118764     2.87   0.005     .0105252    .0575462
         600  |   .0787717   .0219644     3.59   0.000     .0352909    .1222524
         624  |   .0228855   .0078938     2.90   0.004     .0072589     .038512
         642  |   .0699809   .0354426     1.97   0.051    -.0001812    .1401431
         643  |  -.0580422   .0313511    -1.85   0.067    -.1201048    .0040204
         646  |  -.0203528   .0108526    -1.88   0.063    -.0418366     .001131
         659  |  -.0190854   .0182321    -1.05   0.297    -.0551777    .0170068
         662  |  -.0028097   .0172221    -0.16   0.871    -.0369026    .0312832
         670  |  -.0106529   .0200766    -0.53   0.597    -.0503966    .0290908
         682  |  -.0658369   .0135594    -4.86   0.000    -.0926792   -.0389946
         686  |   .0487865   .0199919     2.44   0.016     .0092106    .0883625
         688  |   .1548518   .0703011     2.20   0.029     .0156837    .2940199
         690  |  -.0040403   .0142852    -0.28   0.778    -.0323193    .0242388
         694  |   .0050145   .0122563     0.41   0.683    -.0192481    .0292771
         703  |  -.0479743   .0419113    -1.14   0.255     -.130942    .0349934
         704  |  -.0832726   .0418942    -1.99   0.049    -.1662064   -.0003388
         705  |   -.083436   .0494807    -1.69   0.094     -.181388     .014516
         729  |  -.0177303   .0139831    -1.27   0.207    -.0454113    .0099507
         740  |  -.0206229   .0189585    -1.09   0.279    -.0581531    .0169073
         748  |   .0070805    .016582     0.43   0.670    -.0257452    .0399062
         762  |  -.1293197   .0346457    -3.73   0.000    -.1979043   -.0607352
         768  |   .0268026   .0105916     2.53   0.013     .0058354    .0477698
         776  |  -.0639458   .0161736    -3.95   0.000    -.0959631   -.0319286
         780  |  -.0721988   .0195502    -3.69   0.000    -.1109005   -.0334972
         784  |  -.0250254   .0110403    -2.27   0.025    -.0468808   -.0031701
         788  |    .015802   .0169911     0.93   0.354    -.0178335    .0494375
         795  |  -.2818875    .044725    -6.30   0.000    -.3704251   -.1933499
         798  |  -1.196251   .2337213    -5.12   0.000    -1.658926   -.7335761
         800  |  -.0253195   .0165747    -1.53   0.129    -.0581308    .0074918
         804  |  -.0290238   .0310469    -0.93   0.352    -.0904841    .0324366
         807  |   .1070345   .0420842     2.54   0.012     .0237247    .1903443
         818  |  -.0719548    .031565    -2.28   0.024    -.1344409   -.0094687
         834  |  -.0400436   .0154242    -2.60   0.011    -.0705774   -.0095099
         854  |  -.0040615   .0158594    -0.26   0.798    -.0354567    .0273336
         860  |  -.1301561   .0347809    -3.74   0.000    -.1990084   -.0613038
         882  |  -.0640221   .0155709    -4.11   0.000    -.0948462    -.033198
         894  |          0  (omitted)
              |
EU_membership |  -.8061033   .1780209    -4.53   0.000    -1.158513   -.4536931
US_membership |  -1.099757   .4848419    -2.27   0.025    -2.059549   -.1399637
wto_members~p |  -.4118037   .1728777    -2.38   0.019    -.7540323    -.069575
           bc |  -.0136619   .2616169    -0.05   0.958    -.5315586    .5042348
        _cons |   52.59227   32.55432     1.62   0.109    -11.85226    117.0368
-------------------------------------------------------------------------------

Absorbed degrees of freedom:
-----------------------------------------------------+
 Absorbed FE | Categories  - Redundant  = Num. Coefs |
-------------+---------------------------------------|
      ccodeN |       123         123           0    *|
        year |        36           1          35     |
-----------------------------------------------------+
* = FE nested within cluster; treated as redundant for DoF computation

. 
. 
. 
. *************************************************************
. ****** CONSTRUCTION OF THE DV & DESCRIPTIVE FIGURES *********
. *************************************************************
. 
. 
. clear all 

. use DESTA_DS_1.3.dta

. 
. *** Generate Complainant Rights Index ***
. 
. gen dv_comp_dsm=0

. replace dv_comp_dsm=1 if ds_prov==1
(557 real changes made)

. 
. gen dv_comp_arbi=0

. replace dv_comp_arbi=1 if ds_del_arb==1
(284 real changes made)

. 
. gen dv_comp_binding=0

. replace dv_comp_binding=1 if (ds_binding_prov==1 & ds_binding_exp_yes==1)
(282 real changes made)

. 
. gen dv_comp_sanctions=0

. replace dv_comp_sanctions=1 if ds_sanc_prov==1
(301 real changes made)

. 
. gen dv_comp_forum=0

. replace dv_comp_forum=1 if ds_forum==1
(158 real changes made)

. 
. gen dv_comp_retaliation=0

. replace dv_comp_retaliation=1 if (ds_sanc_compl==1 & ds_sanc_tp!=1 & ds_sanc_d
> p!=1)
(110 real changes made)

. 
. gen dv_comp_sector=0

. replace dv_comp_sector=1 if ds_sanc_cross==1
(134 real changes made)

. 
. gen dv_comp_monetary=0

. replace dv_comp_monetary=1 if ds_sanc_money==1
(21 real changes made)

. 
. 
. gen dv_cr_index= dv_comp_dsm + dv_comp_arbi + dv_comp_binding + dv_comp_sancti
> ons + dv_comp_forum + dv_comp_retaliation + dv_comp_sector + dv_comp_monetary

. 
. 
. * PCA 
. 
. pca dv_comp_dsm dv_comp_arbi dv_comp_binding dv_comp_sanctions dv_comp_forum  
> dv_comp_retaliation dv_comp_sector dv_comp_monetary

Principal components/correlation                 Number of obs    =        651
                                                 Number of comp.  =          8
                                                 Trace            =          8
    Rotation: (unrotated = principal)            Rho              =     1.0000

    --------------------------------------------------------------------------
       Component |   Eigenvalue   Difference         Proportion   Cumulative
    -------------+------------------------------------------------------------
           Comp1 |      3.66843      2.21455             0.4586       0.4586
           Comp2 |      1.45388       .46246             0.1817       0.6403
           Comp3 |      .991421      .185842             0.1239       0.7642
           Comp4 |      .805579      .249779             0.1007       0.8649
           Comp5 |        .5558      .321557             0.0695       0.9344
           Comp6 |      .234243     .0626828             0.0293       0.9637
           Comp7 |       .17156     .0524765             0.0214       0.9851
           Comp8 |      .119084            .             0.0149       1.0000
    --------------------------------------------------------------------------

Principal components (eigenvectors) 

    --------------------------------------------------------------------------
        Variable |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
     dv_comp_dsm |   0.2510    0.3392    0.0235   -0.7614    0.4906   -0.0081 
    dv_comp_arbi |   0.4346   -0.0678   -0.1145   -0.2143   -0.4860    0.7099 
    dv_comp_bi~g |   0.4354   -0.0569    0.0104   -0.2080   -0.5255   -0.6798 
    dv_comp_sa~s |   0.4019    0.4059    0.0566    0.3427    0.0790   -0.1108 
    dv_comp_fo~m |   0.4491   -0.2079   -0.0498    0.2537    0.2794    0.0445 
    dv_comp_re~n |   0.0055    0.7826   -0.0538    0.2700   -0.1478    0.0923 
    dv_comp_se~r |   0.4267   -0.2332   -0.1703    0.2715    0.3752    0.0034 
    dv_comp_mo~y |   0.1149   -0.0473    0.9740    0.0509    0.0037    0.1052 
    --------------------------------------------------------------------------

    ------------------------------------------------
        Variable |    Comp7     Comp8 | Unexplained 
    -------------+--------------------+-------------
     dv_comp_dsm |  -0.0101    0.0261 |           0 
    dv_comp_arbi |   0.0476   -0.0712 |           0 
    dv_comp_bi~g |   0.0366    0.1553 |           0 
    dv_comp_sa~s |  -0.0465   -0.7297 |           0 
    dv_comp_fo~m |  -0.7130    0.3160 |           0 
    dv_comp_re~n |   0.0567    0.5274 |           0 
    dv_comp_se~r |   0.6881    0.2158 |           0 
    dv_comp_mo~y |   0.0952    0.1148 |           0 
    ------------------------------------------------

. estat loadings

Principal component loadings (unrotated)
    component normalization: sum of squares(column) = 1

    --------------------------------------------------------------------------
                 |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
     dv_comp_dsm |     .251     .3392    .02353    -.7614     .4906  -.008135 
    dv_comp_arbi |    .4346   -.06785    -.1145    -.2143     -.486     .7099 
    dv_comp_bi~g |    .4354   -.05693    .01035     -.208    -.5255    -.6798 
    dv_comp_sa~s |    .4019     .4059    .05659     .3427    .07895    -.1108 
    dv_comp_fo~m |    .4491    -.2079   -.04977     .2537     .2794    .04448 
    dv_comp_re~n |  .005453     .7826   -.05383       .27    -.1478    .09225 
    dv_comp_se~r |    .4267    -.2332    -.1703     .2715     .3752   .003391 
    dv_comp_mo~y |    .1149   -.04729      .974    .05088   .003741     .1052 
    --------------------------------------------------------------------------

    ----------------------------------
                 |    Comp7     Comp8 
    -------------+--------------------
     dv_comp_dsm |  -.01007    .02615 
    dv_comp_arbi |   .04758   -.07125 
    dv_comp_bi~g |    .0366     .1553 
    dv_comp_sa~s |  -.04654    -.7297 
    dv_comp_fo~m |    -.713      .316 
    dv_comp_re~n |   .05669     .5274 
    dv_comp_se~r |    .6881     .2158 
    dv_comp_mo~y |   .09517     .1148 
    ----------------------------------

. predict dv_cr_pca pca_ext2, score 
(6 components skipped)

Scoring coefficients 
    sum of squares(column-loading) = 1

    --------------------------------------------------------------------------
        Variable |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
     dv_comp_dsm |   0.2510    0.3392    0.0235   -0.7614    0.4906   -0.0081 
    dv_comp_arbi |   0.4346   -0.0678   -0.1145   -0.2143   -0.4860    0.7099 
    dv_comp_bi~g |   0.4354   -0.0569    0.0104   -0.2080   -0.5255   -0.6798 
    dv_comp_sa~s |   0.4019    0.4059    0.0566    0.3427    0.0790   -0.1108 
    dv_comp_fo~m |   0.4491   -0.2079   -0.0498    0.2537    0.2794    0.0445 
    dv_comp_re~n |   0.0055    0.7826   -0.0538    0.2700   -0.1478    0.0923 
    dv_comp_se~r |   0.4267   -0.2332   -0.1703    0.2715    0.3752    0.0034 
    dv_comp_mo~y |   0.1149   -0.0473    0.9740    0.0509    0.0037    0.1052 
    --------------------------------------------------------------------------

    ----------------------------------
        Variable |    Comp7     Comp8 
    -------------+--------------------
     dv_comp_dsm |  -0.0101    0.0261 
    dv_comp_arbi |   0.0476   -0.0712 
    dv_comp_bi~g |   0.0366    0.1553 
    dv_comp_sa~s |  -0.0465   -0.7297 
    dv_comp_fo~m |  -0.7130    0.3160 
    dv_comp_re~n |   0.0567    0.5274 
    dv_comp_se~r |   0.6881    0.2158 
    dv_comp_mo~y |   0.0952    0.1148 
    ----------------------------------

. 
. estat kmo // Kaiser-Meyer-Olkin Measure of 0.7048

Kaiser-Meyer-Olkin measure of sampling adequacy

    -----------------------
        Variable |     kmo 
    -------------+---------
     dv_comp_dsm |  0.9182 
    dv_comp_arbi |  0.8176 
    dv_comp_bi~g |  0.8049 
    dv_comp_sa~s |  0.6160 
    dv_comp_fo~m |  0.7898 
    dv_comp_re~n |  0.2768 
    dv_comp_se~r |  0.7664 
    dv_comp_mo~y |  0.3388 
    -------------+---------
         Overall |  0.7048 
    -----------------------

. 
. alpha  dv_comp_dsm dv_comp_arbi dv_comp_binding dv_comp_sanctions dv_comp_foru
> m  dv_comp_retaliation dv_comp_sector dv_comp_monetary, std item // Crohnbach'
> s Alpha Reliability check 

Test scale = mean(standardized items)

                                                            Average
                             Item-test     Item-rest       interitem
Item         |  Obs  Sign   correlation   correlation     correlation     alpha
-------------+-----------------------------------------------------------------
dv_comp_dsm  |  651    +       0.5607        0.3994          0.3188      0.7662
dv_comp_arbi |  651    +       0.7706        0.6670          0.2689      0.7202
dv_comp_bi~g |  651    +       0.7841        0.6853          0.2656      0.7169
dv_comp_sa~s |  651    +       0.8486        0.7749          0.2503      0.7003
dv_comp_fo~m |  651    +       0.7712        0.6678          0.2687      0.7201
dv_comp_re~n |  651    +       0.2180        0.0185          0.4004      0.8238
dv_comp_se~r |  651    +       0.7133        0.5909          0.2825      0.7338
dv_comp_mo~y |  651    +       0.3332        0.1399          0.3730      0.8064
-------------+-----------------------------------------------------------------
Test scale   |                                               0.3035      0.7771
-------------------------------------------------------------------------------

. 
. 
. * Table 15: Component Correlation
. 
. correlate  dv_comp_dsm dv_comp_arbi dv_comp_binding dv_comp_sanctions dv_comp_
> forum  dv_comp_retaliation dv_comp_sector dv_comp_monetary
(obs=651)

             | dv_co~sm dv_com~i dv_com~g dv_com~s dv_co~um dv_com~n dv_com~r
-------------+---------------------------------------------------------------
 dv_comp_dsm |   1.0000
dv_comp_arbi |   0.3614   1.0000
dv_comp_bi~g |   0.3591   0.7625   1.0000
dv_comp_sa~s |   0.3810   0.5013   0.5323   1.0000
dv_comp_fo~m |   0.2326   0.6219   0.6042   0.5961   1.0000
dv_comp_re~n |   0.1852  -0.0578  -0.0633   0.4862  -0.1788   1.0000
dv_comp_se~r |   0.2091   0.5787   0.5517   0.5490   0.8195  -0.1991   1.0000
dv_comp_mo~y |   0.0750   0.0848   0.1738   0.1969   0.1603  -0.0823   0.0576

             | dv_com~y
-------------+---------
dv_comp_mo~y |   1.0000


. 
. eststo: estpost correlate dv_comp_dsm dv_comp_arbi dv_comp_binding dv_comp_san
> ctions dv_comp_forum  dv_comp_retaliation dv_comp_sector dv_comp_monetary, mat
> rix listwise

             |      e(b)     e(rho)       e(p)   e(count) 
-------------+--------------------------------------------
dv_comp_dsm  |                                            
 dv_comp_dsm |         1          1                   651 
dv_comp_arbi |  .3613786   .3613786   1.63e-21        651 
dv_comp_bi~g |  .3591267   .3591267   3.00e-21        651 
dv_comp_sa~s |  .3809654   .3809654   6.48e-24        651 
dv_comp_fo~m |  .2325634   .2325634   1.91e-09        651 
dv_comp_re~n |  .1852397   .1852397   1.95e-06        651 
dv_comp_se~r |  .2091431   .2091431   7.22e-08        651 
dv_comp_mo~y |  .0750025   .0750025   .0557886        651 
dv_comp_arbi |                                            
dv_comp_arbi |         1          1                   651 
dv_comp_bi~g |  .7624807   .7624807   7.8e-125        651 
dv_comp_sa~s |  .5012812   .5012812   1.02e-42        651 
dv_comp_fo~m |  .6218701   .6218701   6.25e-71        651 
dv_comp_re~n | -.0577602  -.0577602   .1409854        651 
dv_comp_se~r |  .5787367   .5787367   1.78e-59        651 
dv_comp_mo~y |  .0848278   .0848278   .0304567        651 
dv_comp_bi~g |                                            
dv_comp_bi~g |         1          1                   651 
dv_comp_sa~s |  .5323107   .5323107   6.52e-49        651 
dv_comp_fo~m |  .6041951   .6041951   5.03e-66        651 
dv_comp_re~n | -.0632844  -.0632844   .1067018        651 
dv_comp_se~r |  .5516962   .5516962   4.02e-53        651 
dv_comp_mo~y |  .1737561   .1737561   8.24e-06        651 
dv_comp_sa~s |                                            
dv_comp_sa~s |         1          1                   651 
dv_comp_fo~m |  .5960853   .5960853   7.11e-64        651 
dv_comp_re~n |  .4862375   .4862375   6.19e-40        651 
dv_comp_se~r |  .5489817   .5489817   1.62e-52        651 
dv_comp_mo~y |  .1968748   .1968748   4.12e-07        651 
dv_comp_fo~m |                                            
dv_comp_fo~m |         1          1                   651 
dv_comp_re~n | -.1787784  -.1787784   4.44e-06        651 
dv_comp_se~r |  .8195368   .8195368   4.3e-159        651 
dv_comp_mo~y |  .1602704   .1602704   .0000399        651 
dv_comp_re~n |                                            
dv_comp_re~n |         1          1                   651 
dv_comp_se~r |  -.199148   -.199148   3.01e-07        651 
dv_comp_mo~y |  -.082326   -.082326   .0357242        651 
dv_comp_se~r |                                            
dv_comp_se~r |         1          1                   651 
dv_comp_mo~y |  .0575731   .0575731   .1422794        651 
dv_comp_mo~y |                                            
dv_comp_mo~y |         1          1                   651 
(est1 stored)

. esttab, unstack not noobs compress nostar tex

\begin{tabular}{l*{8}{c}}
\hline\hline
          &\multicolumn{8}{c}{(1)}                                              
>           \\
          &\multicolumn{8}{c}{}                                                 
>           \\
          &dv\_comp\_dsm&dv\_comp\_arbi&dv\_comp\_binding&dv\_comp\_sanctions&dv
> \_comp\_forum&dv\_comp\_retaliation&dv\_comp\_sector&dv\_comp\_monetary\\
\hline
dv\_comp\_dsm&        1&         &         &         &         &         &      
>    &         \\
dv\_comp\_arbi&    0.361&        1&         &         &         &         &     
>     &         \\
dv\_comp\_binding&    0.359&    0.762&        1&         &         &         &  
>        &         \\
dv\_comp\_sanctions&    0.381&    0.501&    0.532&        1&         &         &
>          &         \\
dv\_comp\_forum&    0.233&    0.622&    0.604&    0.596&        1&         &    
>      &         \\
dv\_comp\_retaliation&    0.185&  -0.0578&  -0.0633&    0.486&   -0.179&        
> 1&         &         \\
dv\_comp\_sector&    0.209&    0.579&    0.552&    0.549&    0.820&   -0.199&   
>      1&         \\
dv\_comp\_monetary&   0.0750&   0.0848&    0.174&    0.197&    0.160&  -0.0823& 
>   0.0576&        1\\
\hline\hline
\end{tabular}

. 
. 
. summarize  dv_comp_dsm dv_comp_arbi dv_comp_binding dv_comp_sanctions dv_comp_
> forum  dv_comp_retaliation dv_comp_sector dv_comp_monetary

    Variable |        Obs        Mean    Std. dev.       Min        Max
-------------+---------------------------------------------------------
 dv_comp_dsm |        651    .8556068    .3517583          0          1
dv_comp_arbi |        651    .4362519    .4963009          0          1
dv_comp_bi~g |        651    .4331797     .495896          0          1
dv_comp_sa~s |        651    .4623656     .498965          0          1
dv_comp_fo~m |        651    .2427035     .429047          0          1
-------------+---------------------------------------------------------
dv_comp_re~n |        651    .1689708    .3750143          0          1
dv_comp_se~r |        651    .2058372    .4046229          0          1
dv_comp_mo~y |        651    .0322581    .1768206          0          1

. 
. 
. * Weighted Index (for robustness checks) 
. 
. gen dsm3=.
(651 missing values generated)

. replace dsm3=0 if ds_prov==0 
(94 real changes made)

. replace dsm3=1 if ds_del_con==0 & ds_del_med==0 & ds_del_arb==0 & ds_prov==1 &
>  ds_del_sb==0 
(20 real changes made)

. replace dsm3=2 if ds_prov==1 & ds_del_con==1 & ds_del_med==0 & ds_del_arb==0 &
>  ds_del_sb==0
(222 real changes made)

. replace dsm3=3 if ds_prov==1 & ds_del_med==1 & ds_del_arb==0 & ds_del_sb==0
(4 real changes made)

. replace dsm3=4 if ds_prov==1 & ds_del_arb==1 & ds_del_sb==0
(278 real changes made)

. replace dsm3=5 if ds_del_sb==1
(33 real changes made)

. 
. gen binding3=.
(651 missing values generated)

. replace binding3=0 if ds_binding_prov==1 & ds_binding_exp_no==1
(2 real changes made)

. replace binding3=0 if ds_binding_prov==0 
(367 real changes made)

. replace binding3=1 if ds_binding_prov==1 & ds_binding_exp_yes==1
(282 real changes made)

. 
. 
. gen forum3=.
(651 missing values generated)

. replace forum3=0 if ds_forum==0
(493 real changes made)

. replace forum3=1 if ds_forum==1 & ds_forum_restrict==1
(152 real changes made)

. replace forum3=2 if ds_forum==1 & ds_forum_restrict==0
(6 real changes made)

. 
. gen sanctions3=.
(651 missing values generated)

. replace sanctions3=1 if ds_sanc_prov==1
(301 real changes made)

. replace sanctions3=0 if ds_sanc_prov==0 
(350 real changes made)

. 
. gen retaliation3=.
(651 missing values generated)

. replace retaliation3=0 if ds_sanc_dp==1 & ds_sanc_tp==0
(12 real changes made)

. replace retaliation3=1 if (ds_sanc_dp!=1 & ds_sanc_tp==1) | (ds_sanc_dp==1 & d
> s_sanc_tp==1) | (ds_sanc_compl==1 & ds_sanc_tp==1)
(179 real changes made)

. replace retaliation3=2 if (ds_sanc_compl==1 & ds_sanc_tp!=1)
(120 real changes made)

. replace retaliation3=0 if retaliation3==.
(350 real changes made)

. 
. gen sanc_type3=.
(651 missing values generated)

. replace sanc_type3=0 if  ds_sanc_cross==0
(517 real changes made)

. replace sanc_type3=1 if sanc_type3==.
(134 real changes made)

. 
. gen monetary3=.
(651 missing values generated)

. replace monetary3=1 if ds_sanc_money==1
(21 real changes made)

. replace monetary3=0 if monetary3==.
(630 real changes made)

. 
. gen dv_weight=.
(651 missing values generated)

. replace dv_weight= dsm3 + forum3 + binding3 + sanctions3 + retaliation3 + sanc
> _type3 + monetary3
(651 real changes made)

. 
. pca dsm3 forum3 binding3  sanctions3 retaliation3 sanc_type3 monetary3 

Principal components/correlation                 Number of obs    =        651
                                                 Number of comp.  =          7
                                                 Trace            =          7
    Rotation: (unrotated = principal)            Rho              =     1.0000

    --------------------------------------------------------------------------
       Component |   Eigenvalue   Difference         Proportion   Cumulative
    -------------+------------------------------------------------------------
           Comp1 |      3.70122      2.59606             0.5287       0.5287
           Comp2 |      1.10517      .113936             0.1579       0.6866
           Comp3 |      .991229      .280141             0.1416       0.8282
           Comp4 |      .711088      .464468             0.1016       0.9298
           Comp5 |       .24662     .0407145             0.0352       0.9650
           Comp6 |      .205905      .167133             0.0294       0.9945
           Comp7 |     .0387728            .             0.0055       1.0000
    --------------------------------------------------------------------------

Principal components (eigenvectors) 

    --------------------------------------------------------------------------
        Variable |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
            dsm3 |   0.3925   -0.1920    0.1604   -0.6064    0.6401   -0.0755 
          forum3 |   0.4196   -0.3000   -0.1477    0.4044   -0.0165   -0.7318 
        binding3 |   0.4184   -0.2730    0.0710   -0.4207   -0.7408    0.1298 
      sanctions3 |   0.4494    0.4478   -0.0431    0.0932   -0.0194    0.0167 
    retaliation3 |   0.3391    0.7071   -0.0813   -0.0273   -0.0179    0.0011 
      sanc_type3 |   0.4011   -0.3132   -0.2626    0.4231    0.2012    0.6604 
       monetary3 |   0.1304    0.0005    0.9327    0.3215   -0.0021    0.0740 
    --------------------------------------------------------------------------

    --------------------------------------
        Variable |    Comp7 | Unexplained 
    -------------+----------+-------------
            dsm3 |   0.0174 |           0 
          forum3 |   0.1129 |           0 
        binding3 |   0.0523 |           0 
      sanctions3 |  -0.7657 |           0 
    retaliation3 |   0.6142 |           0 
      sanc_type3 |   0.1279 |           0 
       monetary3 |   0.0651 |           0 
    --------------------------------------

. estat loadings

Principal component loadings (unrotated)
    component normalization: sum of squares(column) = 1

    --------------------------------------------------------------------------
                 |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
            dsm3 |    .3925     -.192     .1604    -.6064     .6401   -.07547 
          forum3 |    .4196       -.3    -.1477     .4044   -.01649    -.7318 
        binding3 |    .4184     -.273    .07104    -.4207    -.7408     .1298 
      sanctions3 |    .4494     .4478    -.0431     .0932   -.01938    .01667 
    retaliation3 |    .3391     .7071   -.08133   -.02731    -.0179   .001083 
      sanc_type3 |    .4011    -.3132    -.2626     .4231     .2012     .6604 
       monetary3 |    .1304    .00047     .9327     .3215  -.002063    .07405 
    --------------------------------------------------------------------------

    ------------------------
                 |    Comp7 
    -------------+----------
            dsm3 |   .01741 
          forum3 |    .1129 
        binding3 |   .05226 
      sanctions3 |   -.7657 
    retaliation3 |    .6142 
      sanc_type3 |    .1279 
       monetary3 |   .06508 
    ------------------------

. predict pca_weight pca_weight2, score 
(5 components skipped)

Scoring coefficients 
    sum of squares(column-loading) = 1

    --------------------------------------------------------------------------
        Variable |    Comp1     Comp2     Comp3     Comp4     Comp5     Comp6 
    -------------+------------------------------------------------------------
            dsm3 |   0.3925   -0.1920    0.1604   -0.6064    0.6401   -0.0755 
          forum3 |   0.4196   -0.3000   -0.1477    0.4044   -0.0165   -0.7318 
        binding3 |   0.4184   -0.2730    0.0710   -0.4207   -0.7408    0.1298 
      sanctions3 |   0.4494    0.4478   -0.0431    0.0932   -0.0194    0.0167 
    retaliation3 |   0.3391    0.7071   -0.0813   -0.0273   -0.0179    0.0011 
      sanc_type3 |   0.4011   -0.3132   -0.2626    0.4231    0.2012    0.6604 
       monetary3 |   0.1304    0.0005    0.9327    0.3215   -0.0021    0.0740 
    --------------------------------------------------------------------------

    ------------------------
        Variable |    Comp7 
    -------------+----------
            dsm3 |   0.0174 
          forum3 |   0.1129 
        binding3 |   0.0523 
      sanctions3 |  -0.7657 
    retaliation3 |   0.6142 
      sanc_type3 |   0.1279 
       monetary3 |   0.0651 
    ------------------------

. 
. 
. ** Figure 14 **
. 
. destring year, replace
year: all characters numeric; replaced as int

. label variable dv_cr_index "Complainant Rights Index"

. 
. catplot dv_cr_index if year>1978,  bar(1, bcolor(edkblue)) recast(bar) ///
> title(" ") ///
> ytitle("Number of PTAs", height(4)) ///
> note("{bf:Note: Larger values indicate a higher level of complainant rights. G
> ATT=1; WTO=5.}") ///
> graphregion(color(white))

. graph save fig14, replace
file fig14.gph saved

. graph export "fig14.eps", as(eps) replace 
file fig14.eps saved as EPS format

. 
. 
. * Figure 3 *
. 
. sort year

. rangestat mean3 = dv_cr_index, interval(year -3 0)

. 
. twoway  (scatter dv_cr_index year, color(edkblue)) (function y =  1  , range(1
> 947  1995) lcolor(red)) (function y =  5  , range(1995  2020) lcolor(red)) (li
> ne mean3 year, color(eltblue) lwidth(0.5)),  ///
> title(" ") ///
> ytitle("Complainant Rights", height(6)) ///
> xtitle("Year") ///
> yscale(range(-0 8)) ///
> ylab(-0(2)8) ///
> xline(1979, lcolor(gs10)) ///
> xline(1995, lcolor(gs10)) ///
> legend(order(1 4) label(1 "PTAs") label(4 "3-Year Moving Average")) ///
> note("{bf:Note:} The red horizontal lines indicate the complainant rights leve
> l of the GATT (1947-1994) and WTO (1995-2020)." "Vertical Lines indicate the G
> ATT Tokyo Round (1979) and creation of the WTO (1995).", size(vsmall)) ///
> graphregion(color(white))

. graph save fig3, replace
file fig3.gph saved

. graph export "fig3.eps", as(eps) replace 
file fig3.eps saved as EPS format

. 
. * Figure 9 *
. 
. clear all 

. use fig9_data.dta

. 
. graph bar cd_only third_p none, over(var7, sort(order) relabel(1 "Full Period"
>  2 "WTO-era" 3 "Full Period" 4 "WTO-era")) bar(1, color(navy)) bar(2, color(em
> idblue)) bar(3, color(eltblue)) legend( label(1 "Complainant/Defendant") label
> (2 "3rd Party Only")  label(3 "No Dispute Experience") ) legend(region(lstyle(
> none)) nobox) graphregion(color(white)) ytitle(Complainant Rights) title("") b
> 1title(                    PTA                                           Monad
> ic)

. graph save figure9, replace
file figure9.gph saved

. graph export "fig9.eps", as(eps) replace
file fig9.eps saved as EPS format

. 
. 
. * Figure 7 *
. 
. clear all

. use fig7_data.dta

. 
. twoway (bar dispute_participation year, yaxis(1) yscale(range(0) axis(1)) bcol
> or(edkblue) clcolor(edkblue) barw(0.85)) ///
>   (rbar dispute_participation stack_variable year, bcolor(ebg) clcolor(ebg) ba
> rw(0.85)) ///
>   (line disputes_total year, sort yaxis(2) yscale(range(0(200)800) axis(2))  y
> lab(0(200)880, axis(2)) mcolor(orange) clcolor(orange) lwidth(0.5)) ///
> (line euandus_dispute year, sort yaxis(2) mcolor(maroon) clcolor(maroon) lwidt
> h(0.5)) ///
> (line lowincome_dispute year, sort yaxis(2) mcolor(dkgreen) clcolor(dkgreen) l
> width(0.5)), ///
> ytitle("Cumulative Number of States", height(6)) ///
> xscale (range(1945(20)2017)) ///
> xlab(1945(10)2017) ///
> ytitle("Cumulative Number of Disputes", height(7) axis(2)) ///
> xtitle(" ") ///
> title("") ///
> legend(label(2 "Third Party Only" ) label(3 "Total Number of Disputes") label(
> 1 "Complainant/Defendant") label(4 "Disputes involving US/EU") label(5 "Disput
> es involving Low-Income States") size(vsmall)) ///
> legend(order(1 2 3 4 5)) ///
> legend(region(lstyle(none))) ///
> graphregion(color(white))

. graph save fig7, replace
file fig7.gph saved

. graph export "fig7.eps", as(eps) replace
file fig7.eps saved as EPS format

. 
. * Figure 1 *
. 
. clear all

. use fig1_data.dta

. 
. twoway (bar cumstates year, yaxis(1) yscale(range(0) axis(1)) bcolor(ebg) clco
> lor(ebg) barw(0.85)) ///
> (line cumtreaties year, sort yaxis(2) yscale(range(0(200)900) axis(2))  ylab(0
> (200)884, axis(2)) xlab(1945(10)2017) mcolor(edkblue) clcolor(edkblue) lwidth(
> 0.5)) ///
>   (line cumbilateral year, sort yaxis(2) yscale(range(0(200)900) axis(2))  yla
> b(0(200)884, axis(2)) mcolor(erose) clcolor(erose) lwidth(0.5)), ///
> ytitle("Cumulative Number of Parties to PTAs", height(4)) ///
> ytitle("Cumulative Number of PTAs", height(6) axis(2)) ///
> xtitle(" ") ///
> title("") ///
> legend(label(2 "PTAs" ) label(3 "of which Bilateral") label(1 "Parties to at l
> east one PTA")) ///
> legend(order(2 3 1)) ///
> legend(region(lstyle(none))) ///
> graphregion(color(white))

. graph save fig1, replace
file fig1.gph saved

. graph export "fig1.eps", as(eps) replace
file fig1.eps saved as EPS format

. 
. 
. log close
      name:  <unnamed>
       log:  C:\Users\bt308095\Documents\ISQ_diffusion_hub\diffusion_hub_updated
> .log
  log type:  text
 closed on:   8 Aug 2024, 21:49:48
--------------------------------------------------------------------------------
